CN202562472U

CN202562472U - Intelligent dipmeter

Info

Publication number: CN202562472U
Application number: CN2012201423349U
Authority: CN
Inventors: 徐瑞; 邓勇; 毛佳欢; 黄继杰; 康莹莹; 尹洪玉; 张之涵; 杨耀权
Original assignee: North China Electric Power University
Current assignee: North China Electric Power University
Priority date: 2012-04-07
Filing date: 2012-04-07
Publication date: 2012-11-28
Anticipated expiration: 2022-04-07

Abstract

The utility model discloses an intelligent dipmeter. Signal output ports of a double-shaft obliquity sensor are connected with signal input ports of a singlechip microcomputer 1, and input/output ports of the singlechip microcomputer are connected with a data storage through an interface circuit 1; output ports of the singlechip microcomputer 1 are connected with an alarm, two serial-port communication ports of the singlechip microcomputer 1 are connected with two serial-port communication ports of a singlechip microcomputer 2; input/output ports of the singlechip microcomputer 2 are connected with a GPRS (General Packet Radio Service) communication module through an interface circuit 2, and output ports of the singlechip microcomputer 2 are connected with a display device; and a battery supply supplies power to an alarm, the double-shaft obliquity sensor, the singlechip microcomputer 1, the interface circuit 1, the data storage device, the GPRS communication module, the singlechip microcomputer 2, and the display device, and supplies power to the interface circuit 2 through a voltage conversion module. The intelligent dipmeter disclosed by the utility model can be used to carry out real-time monitoring on fine changes of inclination angles of a pole tower, carry out real-time storage on monitored data and send the monitored data to a line attendant or a monitoring center, so that the inclination state of the pole tower can be mastered in time.

Description

The intelligence drift indicator

Technical field

The utility model relates to a kind of electric power line pole tower intelligence drift indicator.

Background technology

Because electric power line pole tower quantity is big, the factor that shaft tower tilts is many, and scope is also relatively wider, only depends on transmission of electricity track walker's current check to be difficult to realize in time and exactly finding shaft tower run-off the straight fault.Therefore, how definite rapidly shaft tower tilts or subsides and report to the police in advance just has great significance and necessity.External at present laser or the far infrared mode of adopting monitored shaft tower in real time; Its advantage is that precision is high; It is many that shortcoming is that the single pole tower is established monitoring device point; Must set up line of electric force power supply to monitoring device, and measuring accuracy often receives weather conditions (mist, rain etc.) influence, exist bigger labile factor.Adopt manual inspection more domestic or patrol survey, shortcoming is that polling period is long, and precision is low, and particularly remote districts or backwoods slowly tilt or subside and can not in time find and handle for shaft tower.

The utility model content

The purpose of the utility model is exactly to solve the problems referred to above that exist in the prior art; A kind of intelligent drift indicator is provided; Adopt this drift indicator that electric power line pole tower is monitored, it can do real-time monitoring to the slight change at shaft tower inclination angle, and Monitoring Data is carried out real-time storage; And issue pipeline rider or Surveillance center, in time grasp the heeling condition of shaft tower.

For realizing above-mentioned purpose; The technical solution of the utility model is: a kind of intelligent drift indicator, and it comprises alarm, double-shaft tilt angle sensor, single-chip microcomputer 1, interface circuit 1, data-carrier store, GPRS communication module, interface circuit 2, single-chip microcomputer 2, display, voltage transformation module and battery supply; The signal output port of double-shaft tilt angle sensor connects the signal input port of single-chip microcomputer 1, and the IO port of single-chip microcomputer 1 connects data-carrier store through interface circuit 1; The output port of single-chip microcomputer 1 connects alarm, and its two serial communication ports connect two serial communication ports of single-chip microcomputer 2 respectively; The IO port of single-chip microcomputer 2 connects the GPRS communication module through interface circuit 2, and the output port of single-chip microcomputer 2 connects display; Battery supply is that alarm, double-shaft tilt angle sensor, single-chip microcomputer 1, interface circuit 1, data-carrier store, GPRS communication module, single-chip microcomputer 2, display provide power supply, and battery supply provides power supply for interface circuit 2 after through voltage transformation module.

Above-mentioned described battery supply can be charged by photovoltaic battery panel.

Above-mentioned described battery supply is the 5V battery supply.

Because the utility model has adopted such scheme, double-shaft tilt angle sensor is given single-chip microcomputer 1 with data such as the shaft tower transverse pitch that collects, fore-and-aft tilts, after single-chip microcomputer 1 is handled; With data storage in data-carrier store; Surpass critical angle and carry out this locality warning, and give single-chip microcomputer 2 through two serial communication port transmission, after single-chip microcomputer 2 is handled data; Carry out this locality to display and show, and be transferred to pipeline rider or Surveillance center through the GPRS communication module.The utility model can be done real-time monitoring to the slight change at shaft tower inclination angle, and Monitoring Data is carried out real-time storage, and through the GPRS wireless communication networks real-time data is issued pipeline rider or Surveillance center, carries out this locality when the angle of inclination surpasses critical value and reports to the police.The utility model has been accomplished the multiparameter warning function that shaft tower tilts, and the circuit operations staff is in time grasped the operation conditions of shaft tower, in time grasps the heeling condition of shaft tower, guarantees that the safe operation of electrical network has vital role.The utlity model has advantages such as precision height, highly sensitive, good stability, anti-vibration ability be strong.

Description of drawings

Fig. 1 is the circuit block diagram of the utility model;

Fig. 2 is the circuit theory diagrams of the utility model.

Embodiment

As depicted in figs. 1 and 2, present embodiment comprises voltage transformation module U1 (model is MIC29302WU), high precision double-shaft tilt angle sensor U2 (model is SCA100T), 5V battery supply, single-chip microcomputer 1 U3 (model is AT89C51), interface circuit 1 U4 (model is 74HC573), data-carrier store U5 (model is 62256), single-chip microcomputer 2 U6 (model is AT89C51), LCD display U7 (model is T6963C), GPRS communication module X2 and interface circuit 2 X1 (model is M590).Signal output part 1,4,5 pin of high precision double-shaft tilt angle sensor U2 connect signal input part 14,12,15 pin of single-chip microcomputer 1 respectively; IO port 9,8,7,6,5,4,3,2 pin and the data-carrier store U5 I/O mouth 19,20,21,22,23,24,25,26 of IO port 32,33,34,35,36,37,38,39 pin connecting interface circuit 1 U4 of single-chip microcomputer 1 U3, IO port 12,13,14,15,16,17,18,19 pin of interface circuit 1 U4 connect data-carrier store U5 IO port 8,7,6,5,4,3,2,1 pin; IO port 21,22,23,24,25,26,27,28 pin of single-chip microcomputer 1 U3 connect data-carrier store U5 IO port 9,10,11,12,13,14,15,16 pin, and IO port 16,17 pin of single-chip microcomputer 1 U3 connect data-carrier store U5 IO port 17,18 pin respectively.Serial line interface 10,11 pin of single-chip microcomputer 1 U3 connect serial line interface 11,10 pin of single-chip microcomputer 2 U6, go back serial line interface 7,8 pin of connecting interface circuit 2 X1, also connect serial line interface 11,10 pin of LCD display U7.Output terminal 6,7 pin of single-chip microcomputer 1 U3 are connected the positive pole of loudspeaker then respectively through connecting into one the tunnel behind the illuminating circuit that is formed by resistance R 4 and light emitting diode D2, resistance R 5 and light emitting diode D3, and 5V battery supply VCC connects the positive pole of loudspeaker; Output terminal 8 pin of single-chip microcomputer 1 U3 are connected the base stage of triode Q1 after through resistance R 6, and the collector of triode Q1 connects the negative pole of loudspeaker, the grounded emitter of triode Q1; Crystal oscillator pin 18,19 pin of single-chip microcomputer 1 connect crystal oscillating circuit; Supply pin VCC pin connects the 5V battery supply, and replacement pin 9 pin connect the reset circuit of being made up of switch SW 1, electrochemical capacitor C12 and resistance R 8.IO port 14 pin of single-chip microcomputer 2 U6 connect the base stage of triode Q2, switch pin 19 pin of emitter connecting interface circuit 2 X1 of triode Q2, and its collector is connected its base stage, grounded collector through behind resistance R 13 and the R9; IO port 11,12,13,14 pin of interface circuit 2 X1 connect 6,3,2,1 pin of GPRS communication module X2 respectively, and IO port 14 pin of interface circuit 2 X1 are connected with 11 pin through resistance R 7, and through capacitor C 14 ground connection.Power supply VCC is connected voltage transformation module U1 power supply input pin 1,2 pin, supply pin 2,3 pin of voltage transformation module U1 power supply output pin 4 pin connecting interface circuit 2 X1,1 pin ground connection.IO port 1,2,3,4,5,6,7,8 pin of single-chip microcomputer 2 U6 are connected IO port 1,2,3,4,5,6,7,8 pin of LCD display U7 respectively and interrupt pin 12,13 pin with interruption pin 12,13 pin, and power supply VCC connects the power supply input pin of LCD display U7.Crystal oscillator pin 18,19 pin of single-chip microcomputer 2 U6 connect crystal oscillating circuit; Replacement pin 9 pin connect the reset circuit of being made up of switch SW 2, electrochemical capacitor C16 and resistance R 11; Power supply VCC connects the power supply input pin of single-chip microcomputer 2 U6.

Claims

1. intelligent drift indicator, it is characterized in that: it comprises alarm, double-shaft tilt angle sensor, single-chip microcomputer 1, interface circuit 1, data-carrier store, GPRS communication module, interface circuit 2, single-chip microcomputer 2, display, voltage transformation module and battery supply; The signal output port of double-shaft tilt angle sensor connects the signal input port of single-chip microcomputer 1, and the IO port of single-chip microcomputer 1 connects data-carrier store through interface circuit 1; The output port of single-chip microcomputer 1 connects alarm, and its two serial communication ports connect two serial communication ports of single-chip microcomputer 2 respectively; The IO port of single-chip microcomputer 2 connects the GPRS communication module through interface circuit 2, and the output port of single-chip microcomputer 2 connects display; Battery supply is that alarm, double-shaft tilt angle sensor, single-chip microcomputer 1, interface circuit 1, data-carrier store, GPRS communication module, single-chip microcomputer 2, display provide power supply, and battery supply provides power supply for interface circuit 2 after through voltage transformation module.

2. intelligent drift indicator according to claim 1 is characterized in that: described battery supply can be charged by photovoltaic battery panel.

3. according to claim 1 or 2 described intelligent drift indicators, it is characterized in that: described battery supply is the 5V battery supply.