CN201926525U - Monitoring system for internal temperature and stress of power transformer winding - Google Patents

Abstract

The utility model provides a monitoring system for internal temperature and stress of a power transformer winding. The monitoring system comprises a laser source, an optical fiber sensor, a frequency deviation detection circuit, an amplifying circuit, a filter sampling circuit and a display, wherein the light emitted by the laser source generates Brillouin scattering through the optical fiber sensor, the optical fiber sensor is pre-buried in an electromagnetic wire of the power transformer winding, the temperature and stress in the power transformer winding influence the frequency of the Brillouin scattering signal of the optical fiber sensor, the Brillouin scattering signal transmitted by the optical fiber sensor is converted into an electrical signal through the frequency deviation detection circuit, and the distributed temperature and stress information inside the winding is obtained through the amplifying circuit and the filtering and sampling circuit and is finally transmitted to the display for displaying. The internal temperature and stress monitoring system can accurately measure the temperature and the stress of all points in the transformer winding and truly reflects the temperature of the hottest point and the stress of the winding caused by deformation.

Description

The monitoring system of Winding in Power Transformer internal temperature and stress

Technical field

The utility model belongs to the sensory field of optic fibre in the power transformer monitoring, is specifically related to the monitoring system of a kind of Winding in Power Transformer internal temperature and stress.

Background technology

The thermometry of power transformer winding winding mainly contains three kinds both at home and abroad at present: first kind is by being installed in the sensor of Transformer Winding coil surface, measure the surface temperature of Winding in Power Transformer coil, but this method can only be measured the Winding in Power Transformer surface temperature, fails truly to reflect the winding hottest spot temperature.Second kind is by the measuring media temperature, measures Winding in Power Transformer coil inside temperature indirectly, proves through engineering practice, the winding Inside coil temperature out of true that this method obtains.The third is an internal temperature of measuring the Winding in Power Transformer coil by comparatively complicated fiber-optic grating sensor, and the grating sensor of this method is installed complicated, but measuring point is limited.And can only be the indirect measurement of winding deformation instrument by the deformation proving installation of winding to the measurement of coil winding internal stress both at home and abroad, STRESS VARIATION that not only can not the real time reaction winding, and, easily cause erroneous judgement because the measurement result repetition rate is low.

Therefore, be necessary to provide a kind of and can accurately measure each point temperature and the Transformer Winding internal temperature of stress and the monitoring system of stress in the Transformer Winding, to satisfy actual requirement of engineering.

Summary of the invention

The purpose of this utility model is: provide a kind of based on the Transformer Winding internal temperature of Brillouin scattering principle and the monitoring system of stress, prove through development test, can accurately measure each point temperature and stress in the Transformer Winding, actual response hottest spot temperature and winding are because the stress that deformation is subjected to, and measurement result repetition rate height can greatly improve the accuracy and the dirigibility of the measurement of Winding in Power Transformer internal temperature and stress.

The technical solution adopted in the utility model is: the monitoring system of a kind of Winding in Power Transformer internal temperature and stress, it is characterized in that, system comprises: LASER Light Source, Fibre Optical Sensor, the frequency displacement testing circuit, amplifying circuit, filtering sampling circuit and display, the light that described LASER Light Source is sent produces Brillouin scattering through described Fibre Optical Sensor, described Fibre Optical Sensor is embedded in the electromagnetic wire of Winding in Power Transformer, the frequency of the brillouin scattering signal of Winding in Power Transformer temperature inside and the described Fibre Optical Sensor of stress influence, the brillouin scattering signal that described Fibre Optical Sensor is passed back is converted to electric signal through described frequency displacement testing circuit, pass through described amplifying circuit and described filtering sampling circuit again, draw inner distributed temperature of winding and stress information, send display to show at last.

The monitoring system of aforesaid Winding in Power Transformer internal temperature and stress is characterized in that, described Fibre Optical Sensor is the single-mode fiber sensor.

Compared with prior art, advantage of the present utility model is:

(1) the utility model has solved the problem that conventional electric power Transformer Winding internal temperature stress can not directly be measured, and has improved dirigibility and accuracy that the Transformer Winding internal temperature stress is measured.

(2) the utility model has realized that simple optical fiber measures the problem of Winding in Power Transformer internal temperature and stress simultaneously, and whole optical fiber all is sensor.Can measure inner hottest point of winding coil and winding stress distribution exactly.

(3) the utility model can accurately be measured Winding in Power Transformer temperature inside and stress distribution, and the utility model can be measured every 0.1m temperature and stress at interval in the 50km.Temperature resolution can reach 0.1 degree, and the resolution of strain can reach 2 μ ε.

Description of drawings

Fig. 1 is the transformer core of monitoring system of the Winding in Power Transformer internal temperature of the utility model embodiment and stress and the structural representation of coil.

Embodiment

Below in conjunction with drawings and Examples the utility model is described in further detail.

Symbol description in the accompanying drawing: 1., be wound on the former side's of transformer core sensor fibre; 2., be wound on the former side's of transformer electromagnetic wire; 3., be wound on the sensor fibre of transformer core pair side; 4., be wound on the electromagnetic wire of transformer pair side; 5., transformer core; 6., the former side of transformer; 7., transformer pair side; 8., lasing light emitter; 9., frequency detection circuit; 10., signal amplification circuit;

Signal processing circuit;

Display.

Transformer Winding internal temperature described in the utility model and stress monitoring system mainly comprise: LASER Light Source, Fibre Optical Sensor, frequency displacement testing circuit, amplifying circuit, filtering sampling circuit and display.The Winding in Power Transformer internal optical fiber at first is installed, sensor fibre is connected on lasing light emitter and the measurement loop, the light that lasing light emitter sends forms closed light path through Fibre Optical Sensor.When sensor fiber arbitrarily a bit or any one section when temperature and STRESS VARIATION are arranged, optical fiber is with regard to one of reflected back and self temperature and the narrow spectrum pulsed optical signals of the corresponding Brillouin scattering of strain; Signal processing is carried out the amplification filtering sampling to the return signal row and is analyzed, and the Brillouin frequencies of light in optical fiber is demarcated the temperature value and the stress value of correspondence.After demarcation is finished, nominal data is carried out least square fitting obtain mapping relations between temperature and stress value and the scattering frequency.And then the optical fiber Brillouin scattering frequency that will measure in real time calculates temperature and stress value by mapping relations.

(1) Fibre Optical Sensor is installed

Different with conventional electric power transformer electromagnetic wire, the utility model is buried in single mode or multimode optical fiber sensor in the naked electromagnetic wire earlier, then according to the coil of former side of common process coiling power transformer and pair side.

(2) reference frequency and the Brillouin frequencies of measuring light in optical fiber

The measurement of reference light frequency and Brillouin scattering light frequency meets the method that general light frequency is measured, at first tested light signal is converted to electric signal by frequency detection circuit (among Fig. 1 9.) with light signal, and electric signal amplifies through signal amplification circuit (among Fig. 1 10.) gives signal processing circuit (among the figure in 1

) carry out analyzing and processing and obtain frequency, give display at last (among the figure in 1

) the display frequency signal.

(3) Brillouin frequencies is demarcated

Because of the side-play amount of Brillouin frequencies and fibre strain and variation of temperature have good linear relationship, therefore only needing the Brillouin frequencies conversion of signals of obtaining be that temperature and stress signal just can obtain temperature and stress value.The following detailed description signal scaling process:

The power transformer that at first will be equiped with optical fiber is placed on 20 degrees centigrade of (x of normal temperature ₀=20) and not be subjected under the situation of stress, the frequency shift (FS) of writing down Brillouin frequencies is y ₀

Secondly under the situation that is not subjected to stress, 5 degrees centigrade of the every risings of temperature are noted the frequency shift (FS) of corresponding Brillouin frequencies respectively and are remembered y _iTemperature is elevated to T degree centigrade always.N group data have just been measured so altogether.Use least square method and carry out match.

Introduce mean value: $\stackrel{\‾}{x}=\frac{1}{n}\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{x}_i---\left(1\right)$

$\stackrel{\‾}{y}=\frac{1}{n}\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{y}_i---\left(2\right)$

$\stackrel{\‾}{x^2}=\frac{1}{n}\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{x}_i^2---\left(3\right)$

$\stackrel{\‾}{\mathrm{xy}}=\frac{1}{n}\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{x}_i{y}_i---\left(4\right)$

According to formula (1), (2), (3), (4) then:

$\stackrel{\‾}{y}-a-b\stackrel{\‾}{x}=0---\left(5\right)$

$\stackrel{\‾}{\mathrm{xy}}-a\stackrel{\‾}{x}-b\stackrel{\‾}{x^2}=0---\left(6\right)$

Solve: $a=\stackrel{\‾}{y}-b\stackrel{\‾}{x}---\left(7\right)$

$b=\frac{\stackrel{\‾}{\mathrm{xy}}-\stackrel{\‾}{x}\stackrel{\‾}{y}}{\stackrel{\‾}{x^2}-{\stackrel{\‾}{x}}^2}---\left(8\right)$

Bring a, b value into linear equation y=a+bx, promptly obtain regression beeline equation.Obtain the frequency shift (FS) of Brillouin frequencies and the mapping relations between the temperature.

Test condition is changed into, keep temperature-resistant.Every increase by 5 newton of stress note the frequency shift (FS) of corresponding Brillouin frequencies respectively and remember y _iStress is elevated to T newton always.N group data have just been measured so altogether.Use least square and carry out match.Can obtain the frequency shift (FS) of Brillouin frequencies and the mapping relations between the strain equally, y=a ₂+ b ₂X.

(4) Transformer Winding temperature and stress Calculation

The frequency shift (FS) and the mapping relations between the temperature: the y=a of note Brillouin frequencies ₁+ b ₁X.The frequency shift (FS) of Brillouin frequencies and the mapping relations between the strain: y=a ₂+ b ₂X.Frequency shift (FS) according to the Brillouin frequencies of current Transformer Winding internal optical fiber just can calculate current Transformer Winding temperature T and stress value μ ε.

(5) precision analysis

According to experimental analysis, the monitoring system spatial resolution of Winding in Power Transformer internal temperature and stress can reach 0.1m.The resolution of temperature can reach 0.1 degree, and the resolution of strain can reach 2 μ ε.Can satisfy interior temperature and the strain measurement of fiber optic scope of 50km.

Claims (2)

1. the monitoring system of Winding in Power Transformer internal temperature and stress, it is characterized in that, system comprises: LASER Light Source, Fibre Optical Sensor, the frequency displacement testing circuit, amplifying circuit, filtering sampling circuit and display, the light that described LASER Light Source is sent produces Brillouin scattering through described Fibre Optical Sensor, described Fibre Optical Sensor is embedded in the electromagnetic wire of Winding in Power Transformer, the frequency of the brillouin scattering signal of Winding in Power Transformer temperature inside and the described Fibre Optical Sensor of stress influence, the brillouin scattering signal that described Fibre Optical Sensor is passed back is converted to electric signal through described frequency displacement testing circuit, pass through described amplifying circuit and described filtering sampling circuit again, draw inner distributed temperature of winding and stress information, send display to show at last.

2. the monitoring system of Winding in Power Transformer internal temperature according to claim 1 and stress is characterized in that, described Fibre Optical Sensor is the single-mode fiber sensor.

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