CN204557245U - Extremely frigid zones distribution power automation terminal heating arrangement - Google Patents

Abstract

Extremely frigid zones distribution power automation terminal heating arrangement, belongs to safe distribution of electric power technical field.The utility model is to solve distribution power automation terminal when extremely frigid zones uses, easily occurring the problem of equipment failure because environment temperature is low.Its temperature sensor is due to temperature in the casing of collection distribution power automation terminal, the temperature signal output terminal of temperature sensor connects the temperature signal input of AT89C51 single-chip microcomputer, the heating signal output terminal of AT89C51 single-chip microcomputer connects the heating signal input end of well heater, the alarm signal output ends of AT89C51 single-chip microcomputer connects the alerting signal input end of audible-visual annunciator, the display output terminal of AT89C51 single-chip microcomputer connects the display input end of display, and the signalization input end of AT89C51 single-chip microcomputer connects the signalization output terminal of keyboard; Stabilized voltage supply is used for powering after civil power transformation.The utility model is used for distribution power automation terminal heating.

Description

Extremely frigid zones distribution power automation terminal heating arrangement

Technical field

The utility model relates to extremely frigid zones distribution power automation terminal heating arrangement, belongs to safe distribution of electric power technical field.

Background technology

When extremely frigid zones uses, often there is the terminal equipment failure phenomenon caused because environment temperature is low in existing distribution power automation terminal, this has had a strong impact on the controllability of distribution power automation terminal and online level.Especially under the environment that there's a sudden fall in temperature, distribution power automation terminal failure rate obviously increases, and causes a large amount of terminal devices cannot show distribution net equipment running status by real-time online, brings great potential safety hazard to the safe and stable operation of power distribution network.Carrying out breakdown repair in the winter of severe cold can cause a large amount of human and material resources, the loss of financial resources simultaneously.

Summary of the invention

The utility model object is to solve distribution power automation terminal when extremely frigid zones uses, easily occurring the problem of equipment failure because environment temperature is low, provides a kind of extremely frigid zones distribution power automation terminal heating arrangement.

Extremely frigid zones distribution power automation terminal heating arrangement described in the utility model, described heating arrangement is arranged in the casing of distribution power automation terminal; It comprises AT89C51 single-chip microcomputer, DS18B20 temperature sensor, well heater, keyboard, display, audible-visual annunciator and stabilized voltage supply,

DS18B20 temperature sensor is due to temperature in the casing of collection distribution power automation terminal, the temperature signal output terminal of DS18B20 temperature sensor connects the temperature signal input of AT89C51 single-chip microcomputer, the heating signal output terminal of AT89C51 single-chip microcomputer connects the heating signal input end of well heater, the alarm signal output ends of AT89C51 single-chip microcomputer connects the alerting signal input end of audible-visual annunciator, the display output terminal of AT89C51 single-chip microcomputer connects the display input end of display, the signalization input end of AT89C51 single-chip microcomputer connects the signalization output terminal of keyboard,

Stabilized voltage supply comprises step-down transformer T, bridge rectifier circuit D, electrochemical capacitor C1, electric capacity C2, electric capacity C3, voltage stabilizing chip 7812 and voltage stabilizing chip 7805,

220V civil power obtains 16V voltage through step-down transformer T, this 16V voltage connects two input ends of bridge rectifier circuit D, the cathode output end of bridge rectifier circuit D connects the anode connection terminal of electrochemical capacitor C1, the cathode output end of bridge rectifier circuit D connects the negative pole link of electrochemical capacitor C1, electrochemical capacitor C1 is in parallel with electric capacity C2, the cathode output end of bridge rectifier circuit D connects the input end of voltage stabilizing chip 7812, the cathode output end of bridge rectifier circuit D connects the GND end of voltage stabilizing chip 7812, and the output terminal of voltage stabilizing chip 7812 obtains+12V voltage;

The output terminal of voltage stabilizing chip 7812 connects one end of electric capacity C3, and the cathode output end of bridge rectifier circuit D connects the other end of electric capacity C3; The output terminal of voltage stabilizing chip 7812 connects the input end of voltage stabilizing chip 7805, and the output terminal of voltage stabilizing chip 7805 obtains+5V voltage; The cathode output end of bridge rectifier circuit D connects the GND end of voltage stabilizing chip 7805, the cathode output end ground connection of bridge rectifier circuit D;

+ 12V the voltage that the output terminal of voltage stabilizing chip 7812 obtains is used for providing working power for well heater, and+5V the voltage that the output terminal of voltage stabilizing chip 7805 obtains is used for providing working power for AT89C51 single-chip microcomputer, DS18B20 temperature sensor and display.

Described AT89C51 single-chip microcomputer carries out communication by radio circuit and host computer.

Advantage of the present utility model: the utility model is arranged in traditional distribution power automation terminal casing, by the constantly collection of temperature sensor to environment temperature, carry out control heater, and then the adjustment realized temperature in distribution power automation terminal casing, the temperature in distribution power automation terminal casing is made to remain in the scope of equipment safety operation, it effectively can eliminate the equipment failure of distribution power automation terminal, ensure that the online reliability service of the safety of distribution power automation terminal.

The utility model solves the drawback that existing distribution power automation terminal does not possess heating function, make distribution power automation terminal can keep normal work under extremely frigid zones low temperature rugged surroundings, save the expense expenditure of breakdown repair, reduce potential safety hazard and the operating cost of electrical power distribution automatization system, increase substantially the online rate index of distribution power automation terminal during extremely frigid zones winter.

Accompanying drawing explanation

Fig. 1 is the theory diagram of extremely frigid zones distribution power automation terminal heating arrangement described in the utility model;

Fig. 2 is the circuit theory diagrams of stabilized voltage supply.

Embodiment

Embodiment one: present embodiment is described below in conjunction with Fig. 1 and Fig. 2, extremely frigid zones distribution power automation terminal heating arrangement described in present embodiment, described heating arrangement is arranged in the casing of distribution power automation terminal; It is characterized in that, it comprises AT89C51 single-chip microcomputer 1, DS18B20 temperature sensor 2, well heater 3, keyboard 4, display 5, audible-visual annunciator 6 and stabilized voltage supply 7,

DS18B20 temperature sensor 2 is due to temperature in the casing of collection distribution power automation terminal, the temperature signal output terminal of DS18B20 temperature sensor 2 connects the temperature signal input of AT89C51 single-chip microcomputer 1, the heating signal output terminal of AT89C51 single-chip microcomputer 1 connects the heating signal input end of well heater 3, the alarm signal output ends of AT89C51 single-chip microcomputer 1 connects the alerting signal input end of audible-visual annunciator 6, the display output terminal of AT89C51 single-chip microcomputer 1 connects the display input end of display 5, the signalization input end of AT89C51 single-chip microcomputer 1 connects the signalization output terminal of keyboard 4,

Stabilized voltage supply 7 comprises step-down transformer T, bridge rectifier circuit D, electrochemical capacitor C1, electric capacity C2, electric capacity C3, voltage stabilizing chip 78129 and voltage stabilizing chip 780510,

220V civil power obtains 16V voltage through step-down transformer T, this 16V voltage connects two input ends of bridge rectifier circuit D, the cathode output end of bridge rectifier circuit D connects the anode connection terminal of electrochemical capacitor C1, the cathode output end of bridge rectifier circuit D connects the negative pole link of electrochemical capacitor C1, electrochemical capacitor C1 is in parallel with electric capacity C2, the cathode output end of bridge rectifier circuit D connects the input end of voltage stabilizing chip 78129, the cathode output end of bridge rectifier circuit D connects the GND end of voltage stabilizing chip 78129, and the output terminal of voltage stabilizing chip 78129 obtains+12V voltage;

The output terminal of voltage stabilizing chip 78129 connects one end of electric capacity C3, and the cathode output end of bridge rectifier circuit D connects the other end of electric capacity C3; The output terminal of voltage stabilizing chip 78129 connects the input end of voltage stabilizing chip 780510, and the output terminal of voltage stabilizing chip 780510 obtains+5V voltage; The cathode output end of bridge rectifier circuit D connects the GND end of voltage stabilizing chip 780510, the cathode output end ground connection of bridge rectifier circuit D;

+ 12V the voltage that the output terminal of voltage stabilizing chip 78129 obtains is used for providing working power for well heater 3, and+5V the voltage that the output terminal of voltage stabilizing chip 780510 obtains is used for providing working power for AT89C51 single-chip microcomputer 1, DS18B20 temperature sensor 2 and display 5.

In present embodiment, the operating ambient temperature of distribution power automation terminal measured in real time by DS18B20 temperature sensor 2, measured temperature is given key control unit AT89C51 single-chip microcomputer as fiducial value, simultaneous temperature measurement result is shown in real time by LCD display.Default low-temperature warning reference value and normal operating temperature higher limit can be inputted by keyboard.The temperature value measured in real time and reference value compare by single-chip microcomputer, when measured value starts heating arrangement lower than during reference value; Heating is stopped when measured value reaches running temperature higher limit.

Described heating arrangement can be selected to implement manually local or distant place control startup heating, to ensure that each element works at a normal temperature.Also can select Automatic-heating, when Automatic-heating is selected to drop into, 2 parameters can be set, be respectively lowest temperature control value and floating heated perimeter.When parameter lowest temperature control value for-10 degrees Celsius, float heated perimeter value be 15 time, first well heater 3 state is not for start; The temperature well heater when-10,5 degrees Celsius interval gathered when DS18B20 temperature sensor 2 does not start; When the temperature that temperature sensor collects drops to below-5 degree, Single-chip Controlling heater starting; When temperature recovery to well heater when-10 to 5 degree continues to keep heating; And when the temperature that Temperature sampler collects is more than 5 degree, Single-chip Controlling well heater stops heating.

Display 5 in present embodiment can adopt 8 light-emitting diode displays, for the temperature of real-time display measurement, drives through MAX7219 display module.Adopt simple keyboard interface to realize temperature parameter to arrange, each button is directly connected with the I/O line of single-chip microcomputer independently, and the duty between button and button is independent of each other, and each button accounts for an I/O mouth line.Adopt the voltage of step-down transformer acquisition about+16V in stabilized voltage supply 7, can be obtained by bridge rectifier circuit single on the occasion of voltage, after the voltage stabilizing and balance of electric capacity and resistance, enter 7805 and 7812.Voltage stabilization can export at+5V and+12V by 7805 and 7812.

AT89C51 single-chip microcomputer 1 can be replaced with AT89S52.

Embodiment two: present embodiment is described below in conjunction with Fig. 1, present embodiment is described further embodiment one, and described AT89C51 single-chip microcomputer 1 carries out communication by radio circuit and host computer 8.

In present embodiment, host computer 8 is by the using state of remote control and regulation heating arrangement, and make using and arrange and being more tending towards flexible of heating arrangement, adaptability is stronger.

Claims (2)

1. an extremely frigid zones distribution power automation terminal heating arrangement, described heating arrangement is arranged in the casing of distribution power automation terminal; It is characterized in that, it comprises AT89C51 single-chip microcomputer (1), DS18B20 temperature sensor (2), well heater (3), keyboard (4), display (5), audible-visual annunciator (6) and stabilized voltage supply (7)

DS18B20 temperature sensor (2) is due to temperature in the casing of collection distribution power automation terminal, the temperature signal output terminal of DS18B20 temperature sensor (2) connects the temperature signal input of AT89C51 single-chip microcomputer (1), the heating signal output terminal of AT89C51 single-chip microcomputer (1) connects the heating signal input end of well heater (3), the alarm signal output ends of AT89C51 single-chip microcomputer (1) connects the alerting signal input end of audible-visual annunciator (6), the display output terminal of AT89C51 single-chip microcomputer (1) connects the display input end of display (5), the signalization input end of AT89C51 single-chip microcomputer (1) connects the signalization output terminal of keyboard (4),

Stabilized voltage supply (7) comprises step-down transformer T, bridge rectifier circuit D, electrochemical capacitor C1, electric capacity C2, electric capacity C3, voltage stabilizing chip 7812 (9) and voltage stabilizing chip 7805 (10),

220V civil power obtains 16V voltage through step-down transformer T, this 16V voltage connects two input ends of bridge rectifier circuit D, the cathode output end of bridge rectifier circuit D connects the anode connection terminal of electrochemical capacitor C1, the cathode output end of bridge rectifier circuit D connects the negative pole link of electrochemical capacitor C1, electrochemical capacitor C1 is in parallel with electric capacity C2, the cathode output end of bridge rectifier circuit D connects the input end of voltage stabilizing chip 7812 (9), the cathode output end of bridge rectifier circuit D connects the GND end of voltage stabilizing chip 7812 (9), the output terminal of voltage stabilizing chip 7812 (9) obtains+12V voltage,

The output terminal of voltage stabilizing chip 7812 (9) connects one end of electric capacity C3, and the cathode output end of bridge rectifier circuit D connects the other end of electric capacity C3; The output terminal of voltage stabilizing chip 7812 (9) connects the input end of voltage stabilizing chip 7805 (10), and the output terminal of voltage stabilizing chip 7805 (10) obtains+5V voltage; The cathode output end of bridge rectifier circuit D connects the GND end of voltage stabilizing chip 7805 (10), the cathode output end ground connection of bridge rectifier circuit D;

+ 12V the voltage that the output terminal of voltage stabilizing chip 7812 (9) obtains is used for providing working power for well heater (3), and+5V the voltage that the output terminal of voltage stabilizing chip 7805 (10) obtains is used for providing working power for AT89C51 single-chip microcomputer (1), DS18B20 temperature sensor (2) and display (5).

2. extremely frigid zones distribution power automation terminal heating arrangement according to claim 1, is characterized in that, described AT89C51 single-chip microcomputer (1) carries out communication by radio circuit and host computer (8).