CN205157721U - Zero device is surveyed to unmanned aerial vehicle insulator - Google Patents

Abstract

The utility model belongs to the technical field of the electric power system insulator detects, concretely relates to zero device is surveyed to unmanned aerial vehicle insulator. The utility model discloses main solution adopts the spark gap test to have the inefficiency, leak fallout ratio height and the poor problem of security examined at present. The utility model relates to a zero device is surveyed to unmanned aerial vehicle insulator, including unmanned aerial vehicle, match the remote controller that uses with unmanned aerial vehicle, include still wherein that motor, two coaxial wire reels, two rolls measure line and caliber, the belly at unmanned aerial vehicle is all installed to motor and two coaxial wire reels, and the output shaft of motor is connected with the axle of two coaxial wire reels, measures the line for two rolls and twines respectively on two wire reels, and two surveying pins of caliber are connected with two measurement lines respectively, the caliber shows the measuring signal transmission with receiver wireless connection for the receiver.

Description

A kind of unmanned plane insulator zero device

Technical field

The utility model belongs to the sub-detection technique field of power system insulation, is specifically related to a kind of unmanned plane insulator zero device.

Background technology

Insulator chain, along with exposing to the weather and term Voltage effect open air, may have indivedual porcelain vase on-insulated.This porcelain insulator is destroyed, insulation resistance is close to 0, the magnitude of voltage that porcelain vase string is born is also close to 0, therefore be called as " zero resistance insulator ", " zero resistance insulator " finds not in time and changes and wire voltage just may occur puncture all good insulators and the situation causing single-phase earthing, affects normal power supply.Traditional sparking distance testing apparatus needs artificial upper tower, hot line job, not only dangerous but also to measure efficiency low, undetected false retrieval more problems.

Utility model content

The utility model, mainly for the problem adopting at present sparking distance test to there is the high and poor stability of low, the undetected fallout ratio of efficiency, provides a kind of unmanned plane insulator zero device.

The utility model is the technical scheme taked that solves the problem:

A kind of unmanned plane insulator zero device, comprise unmanned plane, the telepilot used is mated with unmanned plane, wherein also comprise motor, two coaxial wire spool, two volume slotted line and measuring appliances, described motor and two coaxial wire spools are all arranged on the belly of unmanned plane, the output shaft of motor is connected with the axle of two coaxial wire spools, two volume slotted lines are wrapped on two wire spools respectively, two surveyingpins of measuring appliance are connected with two slotted lines respectively, and the signal transmission of measurement shows to receiver by described measuring appliance and receiver wireless connections.

The utility model evenly arranges multiple connecting link between two volume slotted lines.

Be provided with metering circuit in measuring appliance described in the utility model, in receiver, be provided with receiving circuit.

Described measuring appliance metering circuit comprises collecting part, conversion edit segment, wireless receiving and dispatching penetrates part and power unit composition, described collecting part is by input terminal and resistance R1-R7, electric capacity C1 forms, No. 3 of input terminal are connected with two slotted lines respectively with No. 4 ports, No. 1 of input terminal is all connected with one end of resistance R1 with No. 2 ports, the other end of resistance R1 is connected with one end of resistance R3 with one end of resistance R2, the other end of resistance R2 is connected with one end of resistance R4 with the other end of resistance R3, the other end of resistance R3 is connected with one end of resistance R5 with the other end of resistance R2, the other end of resistance R4 is connected with one end of electric capacity C1 with the other end of resistance R5, the other end of resistance R5 and the other end of resistance R4, one end of resistance R6 is connected with one end of resistance R7, ground connection after the other end of electric capacity C1 is connected with the other end of resistance R6, the other end of resistance R7 is connected with the P0.2 port of single-chip microcomputer U1,

Described conversion edit segment is by programming terminal PRG, single-chip microcomputer U1, resistance R8-R11, electric capacity C2-C4 and crystal oscillator X1 forms, No. 1 port of programming terminal PRG and one end of resistance R8, No. 7 ports of single-chip microcomputer U1, No. 8 ports of radio receiving transmitting module and one end of electric capacity C5 are connected, No. 2 ports of programming terminal PRG are connected with No. 3 ports of single-chip microcomputer U1 with one end of resistance R9, the other end of resistance R9 is connected with one end of electric capacity C2 with the other end of resistance R8, the other end ground connection of electric capacity C2, No. 3 ports of programming terminal PRG are connected with No. 17 ports of single-chip microcomputer U1, No. 4 port ground connection of programming terminal PRG, No. 5 port ground connection of single-chip microcomputer U1, No. 10 ports of single-chip microcomputer U1 and one end of resistance R10, one end of resistance R11 is connected, the other end of resistance R10 is connected with No. 1 port of power supply POW, the other end ground connection of resistance R11, No. 11 ports of single-chip microcomputer U1 are connected with one end of resistance R12, No. 15 ports of single-chip microcomputer U1 are connected with one end of electric capacity C4 with one end of crystal oscillator X1, No. 16 ports of single-chip microcomputer U1 are connected with one end of electric capacity C3 with the other end of crystal oscillator X1, ground connection after the other end of electric capacity C3 is connected with the other end of electric capacity C4, No. 18 ports of single-chip microcomputer U1 are connected with No. 1 port of radio receiving transmitting module T1, No. 19 ports of single-chip microcomputer U1 are connected with No. 2 ports of radio receiving transmitting module T1, other ports of single-chip microcomputer U1 are empty angle,

Described wireless receiving and dispatching is penetrated part and is comprised radio receiving transmitting module T1, electric capacity C5-6, No. 1 port of radio receiving transmitting module T1 is connected with No. 18 ports of single-chip microcomputer U1, No. 2 ports of radio receiving transmitting module T1 are connected with No. 19 ports of single-chip microcomputer U1, No. 6 port ground connection of radio receiving transmitting module T1, No. 7 ports of radio receiving transmitting module T1 are connected with one end of electric capacity C6 with No. 1 port of power supply POW, the other end ground connection of electric capacity C6, No. 8 ports of radio receiving transmitting module T1 are connected with one end of electric capacity C5 with No. 1 port of programming terminal PRG, the other end ground connection of electric capacity C5.

Receiving circuit in described receiver 9 comprises receiver editor terminal part, receiver conversion edit segment, receiver transceiver module part, display section, display driving part, reseting module, receiver crystal oscillator module, filter capacitor module and indicating lamp module composition, described receiver editor terminal part is editor's terminals P 3, editor's No. 1 port of terminals P 3 is connected with No. 1 port of power supply POW2, No. 4 port ground connection of editor's terminals P 3;

Described receiver conversion edit segment is made up of single-chip microcomputer U2 and electric capacity C7-10, No. 2 ports of single-chip microcomputer U2 are connected with reset key, No. 6 port ground connection of single-chip microcomputer U2, No. 7 ports of single-chip microcomputer U2 are connected with one end of electric capacity C8 with one end of electric capacity C7, ground connection after the other end of electric capacity C7 is connected with the other end of electric capacity C8, No. 8 ports of single-chip microcomputer U2 are connected with one end of electric capacity C10 with one end of electric capacity C9, ground connection after the other end of electric capacity C9 is connected with the other end of electric capacity C10, No. 9 ports of single-chip microcomputer U2 are connected with one end of resistance R26, No. 10 ports of single-chip microcomputer U2 are connected with one end of resistance R27, No. 11 ports of single-chip microcomputer U2 are connected with one end of resistance R28, No. 21 ports of single-chip microcomputer U2 are connected with No. 2 ports of radio receiving transmitting module T2 with one end of resistance R17, No. 22 ports of single-chip microcomputer U2 and one end of resistance R16, No. 1 port of radio receiving transmitting module T2 is connected, No. 25 ports of single-chip microcomputer U2 are connected with No. 6 ports of driver DISP with one end of resistance R18, No. 26 ports of single-chip microcomputer U2 are connected with No. 7 ports of driver DISP with one end of resistance R19, No. 27 ports of single-chip microcomputer U2 are connected with No. 8 ports of driver DISP with one end of resistance R20, No. 28 ports of single-chip microcomputer U2 are connected with one end of resistance R21, No. 29 ports of single-chip microcomputer U2 are connected with one end of resistance R22, No. 30 ports of single-chip microcomputer U2 are connected with one end of resistance R23, No. 31 ports of single-chip microcomputer U2 are connected with one end of resistance R24, No. 32 ports of single-chip microcomputer U2 are connected with one end of resistance R25, other ports of single-chip microcomputer U2 are empty pin,

Described receiver transceiver module part is by radio receiving transmitting module T2, electric capacity C15, power supply POW2, diode D1 and K switch 1 form, No. 1 port of radio receiving transmitting module T2 is connected with No. 22 ports of single-chip microcomputer U2, No. 2 ports of radio receiving transmitting module T2 are connected with No. 21 ports of single-chip microcomputer U2, No. 6 port ground connection of radio receiving transmitting module T2, No. 7 ports of radio receiving transmitting module T2 are connected with No. 1 port of power supply POW2, No. 8 ports of radio receiving transmitting module T2 are connected with one end of electric capacity C15 with No. 1 port of power supply POW2, ground connection after No. 2 ports of power supply POW2 are connected with the other end of electric capacity C15, one end of diode D1 is connected with 3 ends of power supply POW2, the other end of diode D1 is connected with one end of K switch 1, the other end of K switch 1 is No. 1 port of power supply POW2,

Described display section by R16-R28 totally 13 resistance form, be connected with No. 1 port of editor's terminals P 3 after the other end of R16-R28 is connected;

Described display driving part is made up of driver DISP and resistance R15, No. 1 port ground connection of driver DISP, No. 2 ports of driver DISP are connected with No. 1 port of power supply POW2 by resistance R15, No. 3 port ground connection of driver DISP, No. 4 ports of driver DISP are connected with No. 1 port of power supply POW2, No. 6 ports of driver DISP are connected with one end of resistance R18, No. 7 ports of driver DISP are connected with one end of resistance R19, No. 8 ports of driver DISP are connected with one end of resistance R20, other ports of driver DISP are empty pin,

Described reseting module is made up of resistance R13-R14 and electric capacity C11-C12, one end of resistance R14 is connected with No. 1 port of power supply POW2, the other end of resistance R14 is connected with one end of electric capacity C12 with one end of reset key, resistance R13, the other end ground connection of electric capacity C12, the other end of resistance R13 is connected with reset key one end with electric capacity C11, the other end ground connection of electric capacity C11;

Described receiver crystal oscillator module is made up of crystal oscillator X2 and electric capacity C13-C14, one end of crystal oscillator X2 is connected with one end of electric capacity C13 with No. 4 ports of single-chip microcomputer U2, the other end ground connection of electric capacity C13, the other end of crystal oscillator X2 is connected with one end of electric capacity C14 with No. 5 ports of single-chip microcomputer U2, the other end ground connection of electric capacity C14;

Described filter capacitor module is made up of four electric capacity C15-C18 in parallel, and after electric capacity C15-C18 parallel connection, one end is connected with No. 1 port of power supply POW2, the other end ground connection after electric capacity C15-C18 parallel connection.

Described indicating lamp module comprises resistance R12 and pilot lamp LED, and one end of resistance R12 is connected with No. 11 ports of single-chip microcomputer U1, and the other end of resistance R12 is connected with one end of pilot lamp LED, the other end ground connection of pilot lamp LED.

The present invention adopts technique scheme, by the potential difference (PD) at the monolithic insulator two ends in measuring appliance surveying work, through inner high-tension resistive dividing potential drop, potential difference signal is input to inner Acquisition Circuit, digital signal is converted to by A/D converter, launch after digital circuit coded treatment, after wireless insulator receiver receives, digital signal is converted to through digital circuit decoding, finally demonstrate magnitude of voltage by liquid crystal display, if when the potential difference (PD) recording certain a slice insulator is O, then this sheet insulator is zero resistance insulator, if the potential difference (PD) recording certain a slice insulator lower than standard value see attached list 50% time, illustrate that this sheet insulator is Faulty insulator.According to surveyed Plotting data insulator spread voltage curve, be used for confirming further to judge Faulty insulator.

Pick-up unit of the present utility model has carried out a large amount of field tests, and result meets national DL/T626-1997 standard.This instrument is for testing the spread voltage value of 35 ~ 1000KV suspended insulator or test in laboratory suspended insulator, effectively can find the hidden fault of interior insulator, improve network system reliability of operation, also improve the work efficiency that line work personnel carry out live testing.And there is the features such as the mono-﹑ of Ti Ji little ﹑ Chong Liang Qing ﹑ Shi Jian is easy to carry, the three ball board high pressure damp proof insulation bars that the insulating bar of adapted selects munitions factory to produce, there is the features such as the high insulation of the Fang Chao ﹑ Wen of Nai Gao ﹑ Kang Chong Ji ﹑ Kang Wan ﹑.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the utility model measuring appliance metering circuit collecting part circuit diagram;

Fig. 3 is the utility model measuring appliance metering circuit conversion edit segment circuit diagram;

Fig. 4 is that the utility model measuring appliance metering circuit wireless receiving and dispatching penetrates partial circuit figure;

Fig. 5 is the circuit diagram of the utility model measuring appliance metering circuit power supply;

Fig. 6 is the utility model receiver receiving circuit receiver editor terminal part circuit diagram;

Fig. 7 is the utility model receiver receiving circuit receiver conversion edit segment circuit diagram;

Fig. 8 is the utility model receiver receiving circuit receiver transceiver module partial circuit figure;

Fig. 9 is the utility model receiver receiving circuit display section circuit diagram;

Figure 10 is the utility model receiver receiving circuit display driving part circuit diagram;

Figure 11 is the utility model receiver receiving circuit reseting module circuit diagram;

Figure 12 is the utility model receiver receiving circuit receiver crystal oscillator module circuit diagram;

Figure 13 is the utility model receiver receiving circuit filter capacitor module circuit diagram;

Figure 14 is the utility model receiver receiving circuit indicating lamp module circuit diagram.

Embodiment

Embodiment 1

A kind of unmanned plane insulator zero device, as shown in Figure 1, comprise unmanned plane 1, the telepilot 2 used is mated with unmanned plane, wherein also comprise motor 3, two coaxial wire spools 4, two volume slotted lines 5 and measuring appliance 6, described motor 3 and two coaxial wire spools 4 are all arranged on the belly of unmanned plane, the output shaft of motor 3 is connected with the axle of two coaxial wire spools 4, two volume slotted lines 5 are wrapped on two wire spools 4 respectively, between two volume slotted lines 5, multiple connecting link 7 is evenly set, two surveyingpins of measuring appliance 6 are connected with two slotted lines 5 respectively, the signal transmission of measurement shows to receiver 9 with receiver 9 wireless connections by described measuring appliance 6.

Be provided with metering circuit in measuring appliance 6 described in the utility model, in receiver 9, be provided with receiving circuit.

Described measuring appliance metering circuit comprises collecting part, conversion edit segment, wireless receiving and dispatching penetrates part and power unit composition, collecting part described is as shown in Figure 2 by input terminal 8 and resistance R1-R7, electric capacity C1 forms, No. 3 of input terminal 8 are connected with two slotted lines 5 respectively with No. 4 ports, No. 1 of input terminal 8 is all connected with one end of resistance R1 with No. 2 ports, the other end of resistance R1 is connected with one end of resistance R3 with one end of resistance R2, the other end of resistance R2 is connected with one end of resistance R4 with the other end of resistance R3, the other end of resistance R3 is connected with one end of resistance R5 with the other end of resistance R2, the other end of resistance R4 is connected with one end of electric capacity C1 with the other end of resistance R5, the other end of resistance R5 and the other end of resistance R4, one end of resistance R6 is connected with one end of resistance R7, ground connection after the other end of electric capacity C1 is connected with the other end of resistance R6, the other end of resistance R7 is connected with the P0.2 port of single-chip microcomputer U1,

Conversion edit segment described is as shown in Figure 3 by programming terminal PRG, single-chip microcomputer U1, resistance R8-R11, electric capacity C2-C4 and crystal oscillator X1 forms, No. 1 port of programming terminal PRG and one end of resistance R8, No. 7 ports of single-chip microcomputer U1, No. 8 ports of radio receiving transmitting module and one end of electric capacity C5 are connected, No. 2 ports of programming terminal PRG are connected with No. 3 ports of single-chip microcomputer U1 with one end of resistance R9, the other end of resistance R9 is connected with one end of electric capacity C2 with the other end of resistance R8, the other end ground connection of electric capacity C2, No. 3 ports of programming terminal PRG are connected with No. 17 ports of single-chip microcomputer U1, No. 4 port ground connection of programming terminal PRG, No. 5 port ground connection of single-chip microcomputer U1, No. 10 ports of single-chip microcomputer U1 and one end of resistance R10, one end of resistance R11 is connected, the other end of resistance R10 is connected with No. 1 port of power supply POW, the other end ground connection of resistance R11, No. 15 ports of single-chip microcomputer U1 are connected with one end of electric capacity C4 with one end of crystal oscillator X1, No. 16 ports of single-chip microcomputer U1 are connected with one end of electric capacity C3 with the other end of crystal oscillator X1, ground connection after the other end of electric capacity C3 is connected with the other end of electric capacity C4, No. 18 ports of single-chip microcomputer U1 are connected with No. 1 port of radio receiving transmitting module T1, No. 19 ports of single-chip microcomputer U1 are connected with No. 2 ports of radio receiving transmitting module T1, other ports of single-chip microcomputer U1 are empty angle,

Wireless receiving and dispatching described is as shown in Figure 4 penetrated part and is comprised radio receiving transmitting module T1, electric capacity C5-6, No. 1 port of radio receiving transmitting module T1 is connected with No. 18 ports of single-chip microcomputer U1, No. 2 ports of radio receiving transmitting module T1 are connected with No. 19 ports of single-chip microcomputer U1, No. 6 port ground connection of radio receiving transmitting module T1, No. 7 ports of radio receiving transmitting module T1 are connected with one end of electric capacity C6 with No. 1 port of power supply POW, the other end ground connection of electric capacity C6, No. 8 ports of radio receiving transmitting module T1 are connected with one end of electric capacity C5 with No. 1 port of programming terminal PRG, the other end ground connection of electric capacity C5.

Receiving circuit in described receiver 9 comprises receiver editor terminal part, receiver conversion edit segment, receiver transceiver module part, display section, display driving part, reseting module, receiver crystal oscillator module, filter capacitor module and indicating lamp module composition, receiver editor terminal part described is as shown in Figure 6 editor's terminals P 3, editor's No. 1 port of terminals P 3 is connected with No. 1 port of power supply POW2, No. 4 port ground connection of editor's terminals P 3;

Receiver conversion edit segment described is as shown in Figure 7 made up of single-chip microcomputer U2 and electric capacity C7-10, No. 2 ports of single-chip microcomputer U2 are connected with reset key, No. 6 port ground connection of single-chip microcomputer U2, No. 7 ports of single-chip microcomputer U2 are connected with one end of electric capacity C8 with one end of electric capacity C7, ground connection after the other end of electric capacity C7 is connected with the other end of electric capacity C8, No. 8 ports of single-chip microcomputer U2 are connected with one end of electric capacity C10 with one end of electric capacity C9, ground connection after the other end of electric capacity C9 is connected with the other end of electric capacity C10, No. 9 ports of single-chip microcomputer U2 are connected with one end of resistance R26, No. 10 ports of single-chip microcomputer U2 are connected with one end of resistance R27, No. 11 ports of single-chip microcomputer U2 are connected with one end of resistance R28, No. 21 ports of single-chip microcomputer U2 are connected with No. 2 ports of radio receiving transmitting module T2 with one end of resistance R17, No. 22 ports of single-chip microcomputer U2 and one end of resistance R16, No. 1 port of radio receiving transmitting module T2 is connected, No. 25 ports of single-chip microcomputer U2 are connected with No. 6 ports of driver DISP with one end of resistance R18, No. 26 ports of single-chip microcomputer U2 are connected with No. 7 ports of driver DISP with one end of resistance R19, No. 27 ports of single-chip microcomputer U2 are connected with No. 8 ports of driver DISP with one end of resistance R20, No. 28 ports of single-chip microcomputer U2 are connected with one end of resistance R21, No. 29 ports of single-chip microcomputer U2 are connected with one end of resistance R22, No. 30 ports of single-chip microcomputer U2 are connected with one end of resistance R23, No. 31 ports of single-chip microcomputer U2 are connected with one end of resistance R24, No. 32 ports of single-chip microcomputer U2 are connected with one end of resistance R25, other ports of single-chip microcomputer U2 are empty pin,

Receiver transceiver module part described is as shown in Figure 8 by radio receiving transmitting module T2, electric capacity C15, power supply POW2, diode D1 and K switch 1 form, No. 1 port of radio receiving transmitting module T2 is connected with No. 22 ports of single-chip microcomputer U2, No. 2 ports of radio receiving transmitting module T2 are connected with No. 21 ports of single-chip microcomputer U2, No. 6 port ground connection of radio receiving transmitting module T2, No. 7 ports of radio receiving transmitting module T2 are connected with No. 1 port of power supply POW2, No. 8 ports of radio receiving transmitting module T2 are connected with one end of electric capacity C15 with No. 1 port of power supply POW2, ground connection after No. 2 ports of power supply POW2 are connected with the other end of electric capacity C15, one end of diode D1 is connected with 3 ends of power supply POW2, the other end of diode D1 is connected with one end of K switch 1, the other end of K switch 1 is No. 1 port of power supply POW2,

Display section described as shown in Figure 9 by R16-R28 totally 13 resistance form, be connected with No. 1 port of editor's terminals P 3 after the other end of R16-R28 is connected;

Display driving part described is as shown in Figure 10 made up of driver DISP and resistance R15, No. 1 port ground connection of driver DISP, No. 2 ports of driver DISP are connected with No. 1 port of power supply POW2 by resistance R15, No. 3 port ground connection of driver DISP, No. 4 ports of driver DISP are connected with No. 1 port of power supply POW2, No. 6 ports of driver DISP are connected with one end of resistance R18, No. 7 ports of driver DISP are connected with one end of resistance R19, No. 8 ports of driver DISP are connected with one end of resistance R20, other ports of driver DISP are empty pin,

Reseting module described is as shown in figure 11 made up of resistance R13-R14 and electric capacity C11-C12, one end of resistance R14 is connected with No. 1 port of power supply POW2, the other end of resistance R14 is connected with one end of electric capacity C12 with one end of reset key, resistance R13, the other end ground connection of electric capacity C12, the other end of resistance R13 is connected with reset key one end with electric capacity C11, the other end ground connection of electric capacity C11;

Receiver crystal oscillator module described is as shown in figure 12 made up of crystal oscillator X2 and electric capacity C13-C14, one end of crystal oscillator X2 is connected with one end of electric capacity C13 with No. 4 ports of single-chip microcomputer U2, the other end ground connection of electric capacity C13, the other end of crystal oscillator X2 is connected with one end of electric capacity C14 with No. 5 ports of single-chip microcomputer U2, the other end ground connection of electric capacity C14;

Filter capacitor module described is as shown in figure 13 made up of four electric capacity C15-C18 in parallel, and after electric capacity C15-C18 parallel connection, one end is connected with No. 1 port of power supply POW2, the other end ground connection after electric capacity C15-C18 parallel connection.

Indicating lamp module described as shown in figure 14 comprises resistance R12 and pilot lamp LED, and one end of resistance R12 is connected with No. 11 ports of single-chip microcomputer U1, and the other end of resistance R12 is connected with one end of pilot lamp LED, the other end ground connection of pilot lamp LED.

Using method:

The upper cover of 1 ﹑ Unscrew emitter before measuring, flicking switch, after power supply is opened, signal lamp glimmers, and emission measurement normally works, and builds upper cover.

2 ﹑ connect telescopic insulating bar, are pulled out by insulating bar, hold insulating bar, do not exceed the mark that handrail is spacing.

When 3 ﹑ measure, by the two ends of two voltage probe contacts monolithic insulator just at work.

The power switch of 4 ﹑ flicking receiving traps, LCDs has display, illustrates that receiving trap normally works.

5 ﹑ work as emitter has signal to send, first receiving trap identifies the code whether matched, if not being pair code, receiving end is Received signal strength not, signal lamp does not glimmer, and when identification receives the code matched, signal lamp starts flicker, LCDs display measurement value, unit is kilovolt.

6 ﹑ finish using, the power supply of stopping device, keep well and wait for that next time uses.

7 ﹑ in use, if launched or receiving trap display low-voltage, do not affect use, can continue to use.Please charging before using next time.

During 8 ﹑ charging, please charger is inserted 220V AC power, the charging jacks of voltage output plug insertion apparatus.When pilot lamp on charger is red, represents and charge; During for green, represent that charging is full.The general duration of charging is one hour, and long-time charging can not damage device and charger.

Claims (2)

1. a unmanned plane insulator zero device, comprise unmanned plane (1), the telepilot (2) used is mated with unmanned plane, it is characterized in that: also comprise motor (3), two coaxial wire spools (4), two volume slotted lines (5) and measuring appliance (6), described motor (3) and two coaxial wire spools (4) are all arranged on the belly of unmanned plane, the output shaft of motor (3) is connected with the axle of two coaxial wire spools (4), two volume slotted lines (5) are wrapped on two wire spools (4) respectively, two surveyingpins of measuring appliance (6) are connected with two slotted lines (5) respectively, the signal transmission measured shows to receiver (9) by described measuring appliance (6) and receiver (9) wireless connections.

2. unmanned plane insulator zero device according to claim 1, is characterized in that: between two volume slotted lines (5), evenly arrange multiple connecting link (7).