CN202631418U - Portable photoacoustic spectrometry detection device for SF6 gas decomposer - Google Patents

Abstract

The utility model relates a portable photoacoustic spectrometry detection device for SF6 gas decomposer. The portable photoacoustic spectrometry detection device is high in sensitivity, capable of automatically achieving detection and concentration conversion, high in detection speed, high in accuracy, easy to carry, and suitable for monitoring online. A paraboloid pillar lens is arranged in an outer shell and an infrared source is arranged on the paraboloid pillar lens. A chopper, an optical filter wheel and a photoacoustic cell are arranged in front of the paraboloid pillar lens. A plurality of optical filters are evenly arranged on the optical filter wheel along the circumferential direction. The photoacoustic cell is provided with a microphone, a pressure sensor and a temperature sensor. The photoacoustic cell is connected with a gas transport pipe and a vacuum pipe, and the vacuum pipe is connected with a vacuum pump. The chopper is connected with a chopper controller, and the optical filter wheel is connected with a single ship microcomputer (SCM). The microphone is connected with a phase locking amplifier module, the pressure sensor and the SCM. The temperature sensor is connected with an analog/digital (A/D) converter, and the A/D converter is connected with the phase locking amplifier module. The SCM, a liquid crystal drive and display screen are connected with an operation power supply.

Description

Portable SF 6Decomposing gas thing optoacoustic spectroscopy pick-up unit

Technical field

The utility model belongs to sulfur hexafluoride (SF ₆) gas-insulated metal-enclosed electrical equipment state inspection field, be specifically related to portable SF ₆Decomposing gas thing optoacoustic spectroscopy pick-up unit.

Background technology

SF ₆Gas-insulated metal-enclosed electrical equipment (GIS) has that environmental protection is stablized, is beneficial to dielectric strength height, security of operation, the time between overhauls(TBO) is long, floor area is little and advantage such as maintenance workload is little; In electric system, especially, city, big and medium-sized cities net is used widely in building and transform.But see from ruuning situation in recent years; GIS both domestic and external is in operation and many problems occurred; Mainly be the fault that its inner inevitably defective causes, in case fault takes place, GIS is because the structure of its sealing makes that the execution of Fault Diagnosis and service work is very difficult; And fault can constantly enlarge along with operation, therefore can cause immeasurable economic loss.The fault mode of GIS mainly is an insulation fault, and the most common characteristic of insulation fault is: shelf depreciation takes place in the insulating medium among the GIS before puncturing fully, under the effect of shelf depreciation, and SF ₆Gas decomposes, and with impurity in oxygen (O ₂), water (H ₂O) and organism complicated chemical reaction takes place, the primary product of generation has sulphuric dioxide (SO ₂), fluoridize thionyl (SOF ₂), fluoridize sulfonyl (SO ₂F ₂), carbon tetrafluoride (CF ₄) and hydrogen fluoride (HF) etc.Aging and the corroding metal that these active gasess that shelf depreciation produces can quicken to insulate, and then aggravation shelf depreciation degree finally cause the GIS fault, so must carry out the content restriction to these gaseous impuritieies, are necessary decomposition gas is detected.Simultaneously, can pass through regularly to GIS inside shelf depreciation decomposition components, as: SO ₂, SO ₂F ₂, SOF ₂, CF ₄, HF etc. monitor and analyze, and type and the degree of judging insulation defect through the type and the content of gas composition for the judgement and the repair based on condition of component of the dielectric level of GIS equipment provides foundation, thereby are avoided the generation of the catastrophic failure and the accident of having a power failure on a large scale.

The photo-acoustic detection device and the experimental technique of decomposition components under the existing sulfur hexafluoride shelf depreciation: application number is 201010295554.0 patent " office puts down infrared photoacoustic spectra pick-up unit and the method that sulfur hexafluoride decomposes component ", and disclosed device mainly comprises corona free experimental transformer, induction voltage regulator, no shelf depreciation protective resistance, noninductive resistance, standard capacitor divider, GIS analog element, wideband high speed vast capacity digital storage oscilloscope, infrared photoacoustic spectra system etc.; Disclosed experimental technique comprises: the preparation before (1) is detected; (2) detection office puts down the concentration of sulfur hexafluoride decomposition components; (3) cleaning and maintenance.The major defect of this patent is that its infrared photoacoustic spectra pick-up unit that adopts can only be to SF ₆The type and the content of gas shelf depreciation decomposition components carry out offline inspection, through gather the SF that GIS analog element the inside shelf depreciation produces with the gas production bag ₆Decomposition gas; Feeding the optoacoustic spectroscopy pick-up unit then detects; There is the problem of three aspects in this device: 1, this device can only be through the gas production of gas production bag; Be injected into then in the optoacoustic spectroscopy pick-up unit,, therefore can not guarantee the precision that detects because sealing, gatherer process and the resting period of gas production bag all can be influential to the concentration of decomposition components; 2, this device volume is huge; The element that is separated by a plurality of (wide range infrared light supply, zinc selenide lens, chopper, chopper controller, optical filter wheel, optical filter, zinc selenide window, photoacoustic cell, optics support, lock-in amplifier and computing machine etc.) constitutes, the on-the-spot inconvenience of using; 3, in the detection method, manually-operated is many, and reading must pass through oscillograph, is not easy to on-the-spot detection automatically.

The utility model content

The purpose of the utility model is can only carry out offline inspection to the photo-acoustic detection device and method of decomposition components under the existing sulfur hexafluoride shelf depreciation, is not suitable for on-the-spot the detection, and a kind of portable SF is provided ₆Decomposing gas thing optoacoustic spectroscopy pick-up unit, conversion, the detection speed with highly sensitive, automatic realization detection and concentration is fast, accuracy of detection is high, be easy to carry, be particularly suitable for advantages such as on-line monitoring.

For realizing above-mentioned purpose, the utility model adopts following technical scheme:

A kind of portable SF ₆Decomposing gas thing optoacoustic spectroscopy pick-up unit; It comprises shell; Be provided with parabolic post mirror in the enclosure, on parabolic post mirror, be provided with infrared light supply, be provided with chopper, optical filter wheel and photoacoustic cell successively in parabolic post mirror the place ahead; On optical filter wheel, be provided with some along the circumferential direction equally distributed some optical filters, IR passes the optical window that optical filter gets into photoacoustic cell; Photoacoustic cell is provided with microphone, baroceptor, temperature sensor, and photoacoustic cell is connected with vacuum line with gas piping, and vacuum line is connected with vacuum pump; Chopper is connected with the chopper controller; Optical filter wheel is connected with single-chip microcomputer; Microphone and lock amplification module mutually, baroceptor is connected with single-chip microcomputer, and temperature sensor is connected with A/D converter; A/D converter and lock amplification module connection mutually, single-chip microcomputer is connected with working power with liquid crystal drive and display screen.

Said shell is divided into two-layer up and down, separates with dividing plate, and parabolic post mirror, infrared light supply, chopper, optical filter wheel and photoacoustic cell are packed in the shell upper strata; Chopper controller, lock phase amplification module, A/D converter, single-chip microcomputer, voltage stabilizer, liquid crystal drive and display screen are packed in lower floor.

The junction of said photoacoustic cell and gas piping and vacuum line is respectively equipped with gas admittance valve and air outlet valve.

Said photoacoustic cell is a single order longitudinal resonance photoacoustic cell; Axial centre place in the right cylinder of photoacoustic cell is provided with resonator cavity; The inwall of resonator cavity in order to produce photoacoustic signal, also is respectively equipped with buffering air chamber at the two ends of resonator cavity through polishing; Interference in order to the noise that reduces the generation of said optical window absorption infrared light causes photoacoustic signal is provided with a through hole in the upper end of described photoacoustic cell simultaneously; Described microphone is fixed in this through hole; And through described signal cable and the input end connection of amplification module mutually of described lock; The photoacoustic signal that described microphone produces resonator cavity converts to and is transferred to described lock phase amplification module through signal cable behind the electric signal and detects; Be connected with described A/D converter through signal cable again then, again the digital signal input single-chip microcomputer that comes out handled.

Said working power mainly is made up of transformer, rectification module and lithium battery; The former limit of transformer is electrically connected with the city; The secondary of transformer is connected with the input end of rectification module; The output terminal of rectification module is with after lithium battery is parallelly connected; Connect with power switch again, then through power lead respectively with described infrared light supply, chopper, optical filter wheel, microphone, temperature sensor, baroceptor, copped wave controller, lock mutually the power end of amplifying unit, A/D converter, single-chip microcomputer, liquid crystal drive and display screen, vacuum pump, gas admittance valve and air outlet valve coil join, in order to supply with the working power of above-mentioned each element; Lithium battery and transformer and rectification module adopt the floating charging operation mode.

The portable SF of a kind of employing ₆The detection method of the optoacoustic spectroscopy pick-up unit of decomposing gas thing, concrete steps are:

(1) prepares before the in-site measurement, device is debugged with impermeability detected, and clean photoacoustic cell;

(2) confirm funtcional relationship between photoacoustic signal and the concentration of component

1. data sampling

With air distributing device with six kinds of pure gas CO that will measure ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂, the HF proportioning becomes the standard pure gas of different volumes mark, simultaneously with air distributing device with six kinds of pure gas CO that will measure ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂, the HF proportioning becomes the mixed gas of different volumes mark; Automatically open through the described gas admittance valve of described Single-chip Controlling, charge into the gas for preparing to described photoacoustic cell inside respectively, through the rotation of described SCM program control optical filter wheel, successively centre wavelength is respectively 4260nmCO again ₂Absorption peak centre wavelength, 7780nmCF ₄Absorption peak centre wavelength, 18550nmSO ₂F ₂Absorption peak centre wavelength, 18860nmSOF ₂Absorption peak centre wavelength, 7350nmSO ₂Absorption peak centre wavelength, 2740nmHF absorption peak centre wavelength) optical filter rotate in the light path, and write down the photoacoustic signal value S=(S that photoacoustic signal district on pairing said liquid crystal drive of each optical filter and the display screen shows successively ₁, S ₂..., S ₆), write down six kinds of various volume fraction Cs of gas _i=(C ₁, C ₂..., C ₆), the photoacoustic signal value S that records that the photoacoustic signal district shows on said liquid crystal drive and the display screen _i, wherein i representes the optical filter of different centre wavelengths, 1-6 represents CO respectively ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂The optical filter corresponding with HF gas; S _i(i=1,2,3,4,5,6) and C _i(i=1,2,3,4,5,6) are represented CO respectively ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂With pairing photoacoustic signal value of HF gas and gas volume fraction.

2. cross response is handled

To photoacoustic signal value S _iCarry out cross response and handle, calculate the volume fraction C of certain pure gas in the mixed gas after support vector regression decision function and calculating overcome cross response in conjunction with the support vector regression method successively _jPhotoacoustic signal district on pairing said liquid crystal drive of each optical filter and the display screen is shown the cross response photoacoustic signal value S that lock phase amplification module records _iAs the input feature vector amount, with the volume fraction of certain gas in the mixed gas as output C _j, adopt the support vector regression method to eliminate cross response, realize accurate detection to certain gas volume mark in the mixed gas;

(3) survey SF ₆The vent one's spleen concentration of a corpse or other object for laboratory examination and chemical testing of shelf depreciation branch

With described portable SF ₆Decomposition components optoacoustic spectroscopy pick-up unit is placed on on-the-spot correct position, and draft tube is connected with the interface of giving vent to anger of GIS, start; Single-chip microcomputer is the said gas admittance valve of control cut out automatically automatically, and said air outlet valve is opened automatically, and said vacuum pump is also opened automatically; Said photoacoustic cell is vacuumized; The atmospheric pressure value that shows when air pressure module corresponding on said liquid crystal drive and the display screen is during less than 0.005MPa, and the described single-chip microcomputer said air outlet valve of control and vacuum pump automatically cuts out automatically, leaves standstill said photoacoustic cell after a period of time; Automatically control the unlatching of said gas admittance valve again, in described photoacoustic cell, charge into the SF of an air pressure ₆Decomposition gas, described gas admittance valve cuts out again automatically; Through the said optical filter wheel rotation of said Single-chip Controlling, successively centre wavelength is respectively 4260nmCO again ₂Absorption peak centre wavelength, 7780nmCF ₄Absorption peak centre wavelength, 18550nmSO ₂F ₂Absorption peak centre wavelength, 18860nmSOF ₂Absorption peak centre wavelength, 7350nmSO ₂The optical filter of absorption peak centre wavelength, 2740nmHF absorption peak centre wavelength rotates in the light path; Through described A/D converter analog signal conversion is become digital signal through the detected photoacoustic signal of said microphone; Be connected with described single-chip microcomputer through signal cable again; Convert the photoacoustic signal that records to corresponding concentration of component through the above-mentioned calculation procedure of compiling based on SVMs, and resulting concentration value is shown in the decomposition components concentration district of described liquid crystal drive and display screen.

(4) plant maintenance.

In the said step (2), the detailed process that cross response is handled is:

1) initialization

Be provided for gaussian kernel function K (s, s _i)=exp (| s-s _i| ²/ 2 σ ²) parameter σ and the preset limits of error ε of support vector regression; Utilize the grid search method, seek the optimum combination of these two parameters, the optimizing interval is respectively (0,10) and (0,1), and it is 1*10 that searching process selects lattice point number, and step-size in search is 0.1, when mean square deviation hour obtain optimized parameter combination (σ, ε);

2) make up support vector regression

The 1st) after the step completion, generate the support vector regression that reduces the cross response of mixed gas photoacoustic signal with setting up; At first set up and reduce CO in the mixed gas ₂Photoacoustic signal cross response support vector regression is input as the cross response photoacoustic signal value S that the pairing lock-in amplifier of each optical filter records _i, be output as SF in the mixed gas ₆The volume fraction C of gas ₁The preset limits of error ε of support vector regression is initialized as 0.01 through the 1st step; Reduce CO in the mixed gas when generating ₂The support vector regression of photoacoustic signal cross response utilizes the gaussian kernel function distribution function to train this support vector regression after making up and finishing, and obtains the standard input, sets up support vector regression learning sample storehouse; CF in the mixed gas is changed in output ₄The volume fraction C of gas ₂, import constant then can the generation and reduce CF in the mixed gas ₄The support vector regression of photoacoustic signal cross response; In like manner, change is output as SO respectively ₂F ₂, SOF ₂, SO ₂Volume fraction C with HF gas ₃, C ₄, C ₅And C ₆, then can generate respectively and reduce SO in the mixed gas ₂F ₂, SOF ₂, SO ₂Support vector regression with the cross response of HF gas photoacoustic signal;

3) training sample database is promptly trained the 2nd) support vector regression set up in the step, after the trained, directly use when practical application.

Said training sample database process is: with experiment obtain with photoacoustic signal value S _iSample is divided into training sample S-Train and test sample book S-Test, chooses S-Train and combines priori to train above-mentioned model, calculates the support vector set { α that various pure gases are corresponding in the mixed gas according to formula (1) ₁Co _2B, α ₁Co _2B ^*α _2CF4, α _2CF4 ^*, α _3SO2F2, α _3SO2F2 ^*, α _4SOF2, α _4SOF2 ^*, α _5SO2, α _5SO2 ^*, α _6HF, α _6HF ^*, construct six kinds of corresponding decision function F respectively _j(s); Thereby obtain the volume fraction C of certain pure gas in the mixed gas _j=F _j(s), concern in the described single-chip microcomputer and with this and to react with program;

Support vector regression decision function F (s), expression formula is:

$F\left(s\right)=\underset{i=1}{\overset{n}{\mathrm{\Σ}}}({\mathrm{\α}}_i-{{\mathrm{\α}}_i}^{*})K(s,s_i)+b---\left(2\right)$

α wherein _i, α _i ^*Be support vector, b is a threshold value.

The portable light acousto-optic spectrum detection device shell of the utility model is a metal material; Length is 500 ~ 600mm, and wide is 350 ~ 450mm, and height is 400 ~ 500mm; Be divided into two-layer up and down; And separate with the thick dividing plate of 10 ~ 30mm, on dividing plate, be provided with the groove that is complementary with the optical device size, be used for described parabolic mirror, chopper, optical filter wheel, photoacoustic cell and vacuum pump etc. are fixed; Make it not influence measuring accuracy and measurement result because of moving of said shell; Lower floor is used for fixing described chopper controller, lock phase amplification module, A/D converter, single-chip microcomputer, working power and liquid crystal drive and display screen etc., opens a rectangular opening that is complementary with said liquid crystal drive and screen size in the side of said shell, is used to install described liquid crystal drive and display screen; Be respectively equipped with the hole of mounting knob then in the left and right sides of said shell, be used for portable handle easy for installation.

Described parabolic mirror is commercial product, is used for light automatic focus through the reflection on parabolic mirror that said infrared light supply is sent.

Described gas admittance valve and air outlet valve are solenoid valve, and the coil of solenoid valve is connected with the output terminal of described working power through power lead, so that control tested SF automatically ₆The air inlet of decomposition components and giving vent to anger.

Described optical filter and optical filter wheel are commercial product; Optical filter is installed in the hole of optical filter wheel; Optical filter wheel is through the step motor drive rotation, and in order to switch the different character optical filter in light path, each optical filter centre wavelength is respectively 7350nm (SO on the optical filter wheel ₂Absorption peak centre wavelength), 4260nm (CO ₂Absorption peak centre wavelength), 7780nm (CF ₄Absorption peak centre wavelength), 18550nm (SO ₂F ₂Absorption peak centre wavelength), 7440nm (SOF ₂Absorption peak centre wavelength), 2740nm (HF absorption peak centre wavelength); Only allow the infrared light of its centre wavelength to pass through; Filter the infrared light of residue frequency band, through signal cable optical filter wheel is connected with single-chip microcomputer, single-chip microcomputer sends the stepper motor rotation in the signal controlling optical filter wheel; And then the infrared light of control different characteristic wavelength through optical filter in optical window is injected photoacoustic cell, the detection under different wave length has promptly reflected the gas with various components contents.

Described photoacoustic cell is a single order longitudinal resonance photoacoustic cell; Axial centre place in the right cylinder of photoacoustic cell is provided with resonator cavity, and the inwall of resonator cavity is through polishing, in order to produce photoacoustic signal; Two ends at resonator cavity also are respectively equipped with the buffering air chamber; Interference in order to the noise that reduces the generation of said optical window absorption infrared light causes photoacoustic signal is provided with a through hole in the upper end of described photoacoustic cell simultaneously, and described microphone is fixed in this through hole; And through described signal cable and the input end connection of amplification module mutually of described lock; The photoacoustic signal that described microphone produces resonator cavity converts to and is transferred to described lock phase amplification module through signal cable behind the electric signal and detects, and is connected with described A/D converter through signal cable again then, again the digital signal of coming out is imported single-chip microcomputer and handles.

Described lock phase amplification module is commercial product; Measurement range 5nV ~ 1V; The survey frequency scope is 10Hz ~ 45kHz, and the reference edge of said lock phase amplification module is connected with described chopper controller through signal cable, in order to reference frequency signal is transferred to described lock phase amplification module by the chopper controller; The input end of said lock phase amplification module is connected with described microphone through signal cable; The output terminal of lock phase amplification module is connected with A/D converter, and A/D converter output is connected with described single-chip microcomputer through data line, and detected photoacoustic signal value is transferred to described single-chip microcomputer; Described single-chip microcomputer utilization calculation procedure converts the photoacoustic signal value to gas concentration value, and the result is shown in the concentration of component district of described liquid crystal drive and display screen.

Working power mainly is made up of transformer, rectification module and lithium battery.The former limit of transformer is electrically connected with the city through the supply socket of power lead on cabinet panel; The secondary of transformer is connected with the input end of rectification module; The output terminal of rectification module is with after lithium battery is parallelly connected; Again with cabinet panel on said power switch connect; Then through power lead respectively with described infrared light supply, chopper, optical filter wheel, microphone, temperature sensor, baroceptor, copped wave controller, lock mutually the power end of amplifying unit, A/D converter, single-chip microcomputer, liquid crystal drive and display screen, vacuum pump, gas admittance valve and air outlet valve coil join, in order to supply with the working power of above-mentioned each element.Lithium battery and transformer and rectification module adopt the floating charging operation mode, for this device provides the reliable work power supply, can satisfy requirements such as voltage, electric current and stability.

Single-chip microcomputer is commercial product; Described temperature sensor output links to each other with described single-chip microcomputer through described signal cable; Described single-chip microcomputer is connected through the input end of described signal cable with said liquid crystal drive and display screen after carrying out the storage and processing of data, and the humidity province of process result on described liquid crystal drive and display screen shown; The inner air pressure signal of said photoacoustic cell of described baroceptor collection is connected to described A/D converter through the signal cable line; Convert digital signal to, be input to storage and processing that described single-chip microcomputer carries out data then, said single-chip microcomputer output is connected with the input end of described liquid crystal drive and display screen through signal cable; The baric area of process result on described liquid crystal drive and display screen shown; Described copped wave controller and the output of described microphone respectively with described lock mutually the amplification module input is connected, said lock phase amplification module output is connected with described single-chip microcomputer through behind the described A/D converter, described single-chip microcomputer carries out the photoacoustic signal of importing is analyzed and handled; And corresponding concentration of component calculated; And be connected with the input end of said liquid crystal drive and display screen through signal wire, with the concentration results photoacoustic signal district on described liquid crystal drive and display screen and the demonstration of decomposition components concentration district respectively of photoacoustic signal and calculating, described single-chip microcomputer is connected with described optical filter wheel; Be used to control it according to fixing direction and angle rotation; Described single-chip microcomputer also is used to control air intake valve, the cut-offfing automatically of give vent to anger valve and vacuum pump, reduces the manually-operated amount greatly, makes more convenient to operate, simple and direct.

Temperature sensor is commercial product; Be a kind of one-line digital temperature sensor, the temperature sensitive device of semiconductor, A/D converter, storer etc. be made on the very little IC chip that it has microminiaturization, low-power consumption, high-performance antijamming capability, is prone to join advantages such as processor by force; Can directly become serial digital signal to handle to described single-chip microcomputer temperature inversion; The temperature test scope is-55 ~+125 ℃, and thermometric resolution is superior to 0.1 ℃, has the super low-power consumption working method.Described temperature sensor is installed on the outside surface of said photoacoustic cell.

Baroceptor is commercial product, and temperature compensation range is-40 ~+125 ℃, and pressure limit is 20kPa ~ 2050kPa; The output voltage signal scope is 0.3 ~ 4.65V; Measuring accuracy is 0.1%VFSS, has favorable linearity simultaneously, and described baroceptor is inserted photoacoustic cell inside; Be used to measure the inner air pressure of photoacoustic cell; Baroceptor output gets into A/D converter through signal cable and carries out analog to digital conversion, imports described single-chip microcomputer again and handles, and single-chip microcomputer is connected with the input end of liquid crystal display driver module through signal wire; The baric area of atmospheric pressure value on said liquid crystal drive and display screen that said photoacoustic cell is inner show in real time, is convenient to control inflation and bleeding in photoacoustic cell.

A/D converter is commercial product, can supply power by single, double power supply, and voltage range is 5 ~ 40V; Pulse output can compatible any logical form; Inside has temperature compensation ability gap reference circuit, thereby has splendid temperature stability, and frequency range is 1Hz ~ 100kHz; Maximum nonlinearity erron is 0.01%, is used for becoming digital data transmission to handle to described single-chip microcomputer the analog signal conversion of said baroceptor and the output of lock phase amplification module.

Liquid crystal drive and display screen are commercial product; Length is 150 ~ 200mm, the wide 80 ~ 120mm of being; Can segmentation show that working current is merely several microamperes, can show bulk information simultaneously; Except numeral; Can also display text, curve, the input end of liquid crystal drive and display screen is connected with described single-chip microcomputer through signal wire, is used for showing respectively the interior temperature value of said photoacoustic cell that said single-chip microcomputer exports after treatment and atmospheric pressure value, said lock the photoacoustic signal value that obtains of amplification module and the concentration of each decomposition components mutually.

The utility model the detection method concrete steps be:

(1) prepares before the in-site measurement, device is debugged with impermeability detected, and clean photoacoustic cell;

(2) confirm funtcional relationship between photoacoustic signal and the concentration of component

1. data sampling

With air distributing device with six kinds of pure gas CO that will measure ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂, the HF proportioning becomes the standard pure gas of different volumes mark, simultaneously with air distributing device with six kinds of pure gas CO that will measure ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂, the HF proportioning becomes the mixed gas of different volumes mark; Automatically open through the described gas admittance valve of described Single-chip Controlling, charge into the gas for preparing to described photoacoustic cell inside respectively, through the rotation of described SCM program control optical filter wheel, successively centre wavelength is respectively 4260nmCO again ₂Absorption peak centre wavelength, 7780nmCF ₄Absorption peak centre wavelength, 18550nmSO ₂F ₂Absorption peak centre wavelength, 18860nmSOF ₂Absorption peak centre wavelength, 7350nmSO ₂Absorption peak centre wavelength, 2740nmHF absorption peak centre wavelength) optical filter rotate in the light path, and write down the photoacoustic signal value S (S that photoacoustic signal district on pairing said liquid crystal drive of each optical filter and the display screen shows successively ₁, S ₂..., S ₆), write down six kinds of various volume fraction Cs of gas _i=(C ₁, C ₂..., C ₆), the photoacoustic signal value S that records that the photoacoustic signal district shows on said liquid crystal drive and the display screen _i, wherein i representes the optical filter of different centre wavelengths, 1-6 represents CO respectively ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂The optical filter corresponding with HF gas; S _i(i=1,2,3,4,5,6) and C _i(i=1,2,3,4,5,6) are represented CO respectively ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂With pairing photoacoustic signal value of HF gas and gas volume fraction.

2. cross response is handled

To photoacoustic signal value S _iCarry out cross response and handle, calculate the volume fraction C of certain pure gas in the mixed gas after support vector regression decision function and calculating overcome cross response in conjunction with the support vector regression method successively _jPhotoacoustic signal district on pairing said liquid crystal drive of each optical filter and the display screen is shown the cross response photoacoustic signal value S that lock phase amplification module records _iAs the input feature vector amount, with the volume fraction of certain gas in the mixed gas as output C _j, adopt the support vector regression method to eliminate cross response, realize accurate detection to certain gas volume mark in the mixed gas;

(3) survey SF ₆The vent one's spleen concentration of a corpse or other object for laboratory examination and chemical testing of shelf depreciation branch

With described portable SF ₆The optoacoustic spectroscopy pick-up unit of decomposition components is placed on on-the-spot correct position, and draft tube is connected with the interface of giving vent to anger of GIS, start; Single-chip microcomputer is the said gas admittance valve of control cut out automatically automatically, and said air outlet valve is opened automatically, and said vacuum pump is also opened automatically; Said photoacoustic cell is vacuumized; The atmospheric pressure value that shows when air pressure module corresponding on said liquid crystal drive and the display screen is during less than 0.005MPa, and the described single-chip microcomputer said air outlet valve of control and vacuum pump automatically cuts out automatically, leaves standstill said photoacoustic cell after a period of time; Automatically control the unlatching of said gas admittance valve again, in described photoacoustic cell, charge into the SF of an air pressure ₆Decomposition gas, described gas admittance valve cuts out again automatically; Through the said optical filter wheel rotation of said Single-chip Controlling, successively centre wavelength is respectively 4260nmCO again ₂Absorption peak centre wavelength, 7780nmCF ₄Absorption peak centre wavelength, 18550nmSO ₂F ₂Absorption peak centre wavelength, 18860nmSOF ₂Absorption peak centre wavelength, 7350nmSO ₂The optical filter of absorption peak centre wavelength, 2740nmHF absorption peak centre wavelength rotates in the light path; Through described A/D converter analog signal conversion is become digital signal through the detected photoacoustic signal of said microphone; Be connected with described single-chip microcomputer through signal cable again; Convert the photoacoustic signal that records to corresponding concentration of component through the above-mentioned calculation procedure of compiling based on SVMs, and resulting concentration value is shown in the decomposition components concentration district of described liquid crystal drive and display screen;

(4) plant maintenance.

The beneficial effect of the utility model is: on existing infrared photoacoustic spectra detection system basis; Realize the automatic control and the real-time digital of infrared photoacoustic spectra detection system are shown in conjunction with single-chip microcomputer, photoacoustic cell, lock phase amplification module, temperature and air pressure measurement module and liquid crystal drive and display screen etc.; Make that the infrared photoacoustic spectra pick-up unit is easy to carry, simple to operate, accuracy of detection is high; Help this utility model device and be convenient to be used for the scene, to the SF among the actual GIS ₆Gas shelf depreciation decomposition gas detects and analyzes, thereby judges the type and the degree of insulation defect, for the judgement and the repair based on condition of component of the dielectric level of GIS equipment provides foundation.

The utility model can be widely used in SF ₆The on-line monitoring of shelf depreciation in the gas-insulated metal-enclosed electrical equipment is specially adapted to SF in the GIS equipment ₆The detection of gas shelf depreciation decomposition components provides a kind of portable light acousto-optic spectrum detection device of being convenient to at the scene, have simple, convenient, the accuracy of detection advantages of higher.

Description of drawings:

Fig. 1 is portable SF ₆The optoacoustic spectroscopy pick-up unit figure of decomposition components;

Among the figure: 1 shell; 2 parabolic post mirrors; 3 infrared light supplies; 4 choppers; 5 optical filter wheels; 6 optical filters; 7 optical windows; 8 photoacoustic cells; 9 baroceptors; 10 temperature sensors; 11 microphones; 12 signal-transmitting cables; 13 gas admittance valves; 14 air outlet valves; 15 gas pipings; 16 vacuum pumps; 17 chopper controllers; 18 lock phase amplification modules; The 19A/D converter; 20 single-chip microcomputers; 21 working powers; 22 liquid crystal drive and display screen.

Embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is further specified.

Among Fig. 1; It comprises shell 1; In shell 1, be provided with parabolic post mirror 2, on parabolic post mirror 2, be provided with infrared light supply 3, be provided with chopper 4, optical filter wheel 5 and photoacoustic cell 8 successively in parabolic post mirror 2 the place aheads; On optical filter wheel 5, be provided with some along the circumferential direction equally distributed some optical filters 6, IR passes the optical window 7 that optical filter 6 gets into photoacoustic cell 8; Photoacoustic cell 8 is provided with microphone 11, baroceptor 9, temperature sensor 10, and photoacoustic cell 8 is connected with vacuum line with gas piping 15, and vacuum line is connected with vacuum pump 16; Chopper 4 is connected with chopper controller 17; Optical filter wheel 5 is connected with single-chip microcomputer 20; Microphone 11 and lock amplification module 18 mutually, baroceptor 9 is connected with single-chip microcomputer 20, and temperature sensor 10 is connected with A/D converter 19; A/D converter 19 and lock amplification module 18 connections mutually, single-chip microcomputer 20 is connected with working power 21 with liquid crystal drive and display screen 22.

Shell 1 is divided into two-layer up and down, separates with dividing plate, and parabolic post mirror 2, infrared light supply 3, chopper 4, optical filter wheel 5 and photoacoustic cell 8 are packed in shell 1 upper strata; Chopper controller 17, lock phase amplification module 18, A/D converter 19, single-chip microcomputer 20, voltage stabilizer 21, liquid crystal drive and display screen 22 are packed in lower floor.

Said photoacoustic cell 8 is respectively equipped with gas admittance valve 13 and air outlet valve 14 with the junction of gas piping 15 and vacuum line.

Said photoacoustic cell 8 is a single order longitudinal resonance photoacoustic cell; Axial centre place in the right cylinder of photoacoustic cell 8 is provided with resonator cavity; The inwall of resonator cavity in order to produce photoacoustic signal, also is respectively equipped with buffering air chamber at the two ends of resonator cavity through polishing; Interference in order to the noise that reduces said optical window 7 absorption infrared lights generations causes photoacoustic signal is provided with a through hole in the upper end of described photoacoustic cell 8 simultaneously; Described microphone 11 is fixed in this through hole; And through described signal cable 12 and the input end connection of amplification module 18 mutually of described lock; The photoacoustic signal that described microphone 11 produces resonator cavity converts to and is transferred to described lock phase amplification module 18 through signal cable 12 behind the electric signal and detects; Be connected with described A/D converter 19 through signal-transmitting cable 12 again then, again the digital signal input single-chip microcomputer 20 that comes out handled.

Said working power 21 mainly is made up of transformer, rectification module and lithium battery; The former limit of transformer is electrically connected with the city; The secondary of transformer is connected with the input end of rectification module; The output terminal of rectification module is with after lithium battery is parallelly connected; Connect with power switch again; Then through power lead respectively with described infrared light supply 3, chopper 4, optical filter wheel 5, microphone 11, temperature sensor 10, baroceptor 9, chopper controller 17, lock mutually the power end of amplification module 18, A/D converter 19, single-chip microcomputer 20, liquid crystal drive and display screen 22, vacuum pump 16, gas admittance valve 13 and air outlet valve 14 coils join, in order to supply with the working power of above-mentioned each element; Lithium battery and transformer and rectification module adopt the floating charging operation mode.

A kind of portable SF ₆The optoacoustic spectroscopy method of testing of decomposition components is utilized the utility model device, to the SF in the GIS analog element ₆The concrete steps that the shelf depreciation decomposition components of gas detects are following:

(1) prepares before the in-site measurement

1. debugging and impermeability detect

With described portable SF ₆Decomposition components optoacoustic spectroscopy pick-up unit is used for before on-the-spot the detection; It is debugged with impermeability and detects in laboratory reply; At first clean the inwall of photoacoustic cell with anhydrous alcohol; Remove the impurity of pond inwall, treat that photoacoustic cell is air-dry after, parts such as mounting temperature sensor, baroceptor, microphone, turnover tracheae, air valve, optical window again; Adjust the position of infrared light supply, chopper, optical filter wheel, optical window and photoacoustic cell then, the center that guarantees each parts and photoacoustic cell on same horizontal line, make infrared light accurately direct projection see through each parts; Inject photoacoustic cell, and each element is fixed, again by with described signal transmssion line CC on request; Confirm circuit connect errorless after, the plug of said working power input end is connected with the 220V three-phase electricity, open described power switch then to described single-chip microcomputer, liquid crystal drive and display screen, baroceptor, gas admittance valve and air outlet valve coil power supply; Described single-chip microcomputer is the said gas admittance valve of control cut out automatically automatically; Said air outlet valve is opened automatically, and said vacuum pump is also opened automatically, and said photoacoustic cell is vacuumized; The atmospheric pressure value that shows when air pressure module corresponding on said liquid crystal drive and the display screen is during less than 0.005MPa; The described single-chip microcomputer automatically said air outlet valve of control cuts out with vacuum pump automatically, leave standstill a period of time after, observe the registration of the air pressure module of correspondence on said liquid crystal drive and the display screen again; As remain unchanged basically, explain that then the impermeability of said photoacoustic cell under vacuum of this device is good.Then, described gas admittance valve is opened automatically, in described photoacoustic cell slowly charge into SF ₆Gas; When the atmospheric pressure value of air pressure module demonstration corresponding on said liquid crystal drive and the display screen is 0.2～0.25MPa; Described gas admittance valve cuts out automatically; After leaving standstill a period of time,, explain that then the impermeability of said photoacoustic cell under hyperbar of this device is good if the registration of corresponding air pressure module remains unchanged on said liquid crystal drive and the display screen.

2. clean photoacoustic cell

After the completion of (1)-1. step, described single-chip microcomputer is controlled described air outlet valve and said vacuum pump automatically and is opened automatically, and described photoacoustic cell is vacuumized; When described photoacoustic cell vacuum tightness during less than 0.005MPa, described air outlet valve and vacuum pump are closed automatically, and described then gas admittance valve is opened automatically; In described photoacoustic cell, charge into air; Till when said photoacoustic cell internal gas pressure value is 0.1MPa, described gas admittance valve cuts out again automatically, and described photoacoustic cell is cleaned.Then by the aforementioned operation step, vacuumize earlier, charge into air purge again, so repeat to wash 2～4 times, and described gas admittance valve cuts out automatically, clean the back and opens automatically through described vacuum pump, said photoacoustic cell is vacuumized, last said vacuum pump cuts out automatically.(2) confirm funtcional relationship between photoacoustic signal and the concentration of component

1. data sampling

After (1) step accomplished, with air distributing device with six kinds of pure gas (CO that will measure ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂, HF) proportioning becomes the standard pure gas of different volumes mark, simultaneously with air distributing device with six kinds of pure gas (CO that will measure ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂, HF) proportioning becomes the mixed gas of different volumes mark.Automatically open through the described gas admittance valve of described Single-chip Controlling earlier, charge into the gas for preparing to described photoacoustic cell inside respectively, through the rotation of described SCM program control optical filter wheel, successively centre wavelength is respectively 4260nm (CO again ₂Absorption peak centre wavelength), 7780nm (CF ₄Absorption peak centre wavelength), 18550nm (SO ₂F ₂Absorption peak centre wavelength), 18860nm (SOF ₂Absorption peak centre wavelength), 7350nm (SO ₂Absorption peak centre wavelength), the optical filter of 2740nm (HF absorption peak centre wavelength) rotates in the light path, and writes down the photoacoustic signal value S=(S that the photoacoustic signal district shows on pairing said liquid crystal drive of each optical filter and the display screen successively ₁, S ₂..., S ₆), write down six kinds of various volume fraction Cs of gas _i=(C ₁, C ₂..., C ₆), the photoacoustic signal value S that records that the photoacoustic signal district shows on following said liquid crystal drive and the display screen _i(wherein i representes the optical filter of different centre wavelengths, and 1-6 represents CO respectively ₂, CF ₄, SO ₂F ₂, SOF ₂, SO ₂The optical filter corresponding with HF gas; Like S ₁Expression records CO ₂The photoacoustic signal value of gas, C ₁Expression photoacoustic signal S ₁Corresponding CO ₂The volume fraction of gas in mixed volume, by that analogy).

2. cross response is handled

After the completion of (2)-1. step, need be to photoacoustic signal value S _iCarry out cross response and handle, calculate the volume fraction C of certain pure gas in the mixed gas after support vector regression decision function and calculating overcome cross response in conjunction with the support vector regression method successively _jBe specially: photoacoustic signal district on pairing said liquid crystal drive of each optical filter and the display screen is shown the cross response photoacoustic signal value S that lock phase amplification module records _iAs the input feature vector amount, with the volume fraction of certain gas in the mixed gas as output C _j, adopt the support vector regression method to eliminate cross response, realize accurate detection to certain gas volume mark in the mixed gas.

Input feature vector amount S _iIn fact a point in the corresponding hyperspace, and these have certain regularity of distribution in the space, need to seek this rule respectively through someway, thus obtain corresponding function analytic expression.The support vector regression principle is sought a lineoid exactly, makes sample as far as possible or all on lineoid, and the sample on lineoid does not have the nargin scope ε of a bit, promptly optimizes following point:

Set up support vector regression decision function F (s), expression formula is:

$F\left(s\right)=\underset{i=1}{\overset{n}{\mathrm{\Σ}}}({\mathrm{\α}}_i-{{\mathrm{\α}}_i}^{*})K(s,s_i)+b---\left(2\right)$

α wherein _i, α _i ^*Be support vector, b is a threshold value.

Its physical significance of F (s) is the gas volume mark C of certain type of pure gas in the mixed gas _jThe concrete steps that cross response is handled are following:

1) initialization

Be provided for gaussian kernel function K (s, s _i)=exp (| s-s _i| ²/ 2 σ ²) parameter σ and the preset limits of error ε of support vector regression.Utilize the grid search method, seek the optimum combination of these two parameters, the optimizing interval is respectively (0,10) and (0,1), and it is 1*10 that searching process selects lattice point number, and step-size in search is 0.1, when mean square deviation hour obtain optimized parameter combination (σ, ε).

2) make up support vector regression

The 1st) after the step completion, generate the support vector regression that reduces the cross response of mixed gas photoacoustic signal with setting up.At first set up and reduce CO in the mixed gas ₂Photoacoustic signal cross response support vector regression is input as the cross response photoacoustic signal value S that the pairing lock-in amplifier of each optical filter records _i, be output as SF in the mixed gas ₆The volume fraction C of gas ₁The preset limits of error ε of support vector regression is initialized as 0.01 through the 1st step.Reduce CO in the mixed gas when generating ₂The support vector regression of photoacoustic signal cross response utilizes the gaussian kernel function distribution function to train this support vector regression after making up and finishing, and obtains the standard input, sets up support vector regression learning sample storehouse.CF in the mixed gas is changed in output ₄The volume fraction C of gas ₂, import constant then can the generation and reduce CF in the mixed gas ₄The support vector regression of photoacoustic signal cross response.In like manner, change is output as SO respectively ₂F ₂, SOF ₂, SO ₂Volume fraction C with HF gas ₃, C ₄, C ₅And C ₆, then can generate respectively and reduce SO in the mixed gas ₂F ₂, SOF ₂, SO ₂Support vector regression with the cross response of HF gas photoacoustic signal.

3) support vector regression set up in training sample database (this step for training we the 2nd) step after the trained, directly uses when practical application)

The 2nd) after the step accomplishes, training sample database: with experiment obtain with photoacoustic signal value S _i(CO ₂Photoacoustic signal, CF ₄Photoacoustic signal, SO ₂F ₂Photoacoustic signal, SOF ₂Photoacoustic signal, SO ₂Photoacoustic signal, HF photoacoustic signal) sample is divided into training sample S-Train and test sample book S-Test; Choose S-Train and combine priori to train above-mentioned model, calculate the support vector set { α that various pure gases are corresponding in the mixed gas according to formula (1) ₁Co _2B, α ₁Co _2B ^*α _2CF4, α _2CF4 ^*, α _3SO2F2, α _3SO2F2 ^*, α _{4 SOF2}, α _4SOF2 ^*, α _5SO2, α _5SO2 ^*, α _6HF, α _6HF ^*, construct six kinds of corresponding decision function F respectively _j(s).Thereby obtain the volume fraction C of certain pure gas in the mixed gas _j=F _j(s), concern in the described single-chip microcomputer and with this and to react with program.

(3) survey SF ₆The vent one's spleen concentration of a corpse or other object for laboratory examination and chemical testing of shelf depreciation branch

With described portable SF ₆The optoacoustic spectroscopy pick-up unit of decomposition components is placed on on-the-spot correct position; Described draft tube is connected with the interface of giving vent to anger of GIS; Plug with said working power input end is electrically connected with the 220V city then, opens described power switch then and gives described single-chip microcomputer, liquid crystal drive and display screen, baroceptor, gas admittance valve and air outlet valve coil power supply, and described single-chip microcomputer is the said gas admittance valve of control cut out automatically automatically; Said air outlet valve is opened automatically; Said vacuum pump is also opened automatically, and said photoacoustic cell is vacuumized, and the atmospheric pressure value that shows when air pressure module corresponding on said liquid crystal drive and the display screen is during less than 0.005MPa; Described single-chip microcomputer controls said air outlet valve and vacuum pump automatically and cuts out automatically; Leave standstill said photoacoustic cell after a period of time, control the unlatching of said gas admittance valve again automatically, in described photoacoustic cell, charge into the SF of an air pressure ₆Decomposition gas, described gas admittance valve cuts out again automatically.Through the said optical filter wheel rotation of said Single-chip Controlling, successively centre wavelength is respectively 4260nm (CO again ₂Absorption peak centre wavelength), 7780nm (CF ₄Absorption peak centre wavelength), 18550nm (SO ₂F ₂Absorption peak centre wavelength), 18860nm (SOF ₂Absorption peak centre wavelength), 7350nm (SO ₂Absorption peak centre wavelength), the optical filter of 2740nm (HF absorption peak centre wavelength) rotates in the light path; Through described A/D converter analog signal conversion is become digital signal through the detected photoacoustic signal of said microphone; Be connected with described single-chip microcomputer through signal cable again; Convert the photoacoustic signal that records to corresponding concentration of component through the above-mentioned calculation procedure of compiling based on SVMs, and resulting concentration value is shown in the decomposition components concentration district of described liquid crystal drive and display screen.

(4) plant maintenance

After the completion of (3) step, take off described draft tube at the GIS interface, said air outlet valve of described Single-chip Controlling and vacuum pump are opened automatically; Gas in the said photoacoustic cell is evacuated to outdoor discharging, closes said air outlet valve and vacuum pump then again automatically, open air intake valve and charge into air; Open said valve and the vacuum pump of giving vent to anger then successively, the gas in the photoacoustic cell is evacuated to outdoor discharging, repeat above operation 2～4 times; With air photoacoustic cell is cleaned up, prevent SF ₆Sour gas corrosion photoacoustic cell in the shelf depreciation decomposition components.

The utility model mainly contains following effect after adopting technique scheme:

(1) the utility model device is highly sensitive, can effectively detect the SO that is low to moderate 0.1 μ L/L ₂, CO ₂, CF ₄, SO ₂F ₂, SOF ₂Etc. gas composition, can carry out qualitative and quantitative analysis accurately to decomposition components under the sulfur hexafluoride shelf depreciation, accuracy is high.

(2) the utility model device is a portable light acousto-optic spectrum detection device; Can conveniently be used for the scene; Decomposition components to sulfur hexafluoride among the actual GIS detects and analyzes, and its advantage is: the one, and this device need directly not be connected gas piping through the gas production of gas production bag with the GIS gas outlet; Be injected into then in the optoacoustic spectroscopy pick-up unit, not can because of the factors such as sealing, gatherer process and resting period of gas production bag and influence accuracy of detection; The 2nd, this device volume is little; Be easy to carry, and complete whole of a whole set of detection system formation, of the influence of photo-acoustic detection system external environment condition eliminated to its accuracy of detection; With respect to existing optoacoustic spectroscopy pick-up unit, accuracy of detection and stability all are greatly improved; The 3rd, in detection method, testing process all is a fully automatic operation, has significantly reduced the manually-operated amount, and reading directly shows through liquid crystal drive and display screen, and has memory function, the automatic detection in the scene of being convenient to.

Claims (5)

1. portable SF ₆The optoacoustic spectroscopy pick-up unit of decomposing gas thing; It is characterized in that it comprises shell, be provided with parabolic post mirror in the enclosure; On parabolic post mirror, be provided with infrared light supply; Be provided with chopper, optical filter wheel and photoacoustic cell successively in parabolic post mirror the place ahead, on optical filter wheel, be provided with some along the circumferential direction equally distributed some optical filters, IR passes the optical window that optical filter gets into photoacoustic cell; Photoacoustic cell is provided with microphone, baroceptor, temperature sensor, and photoacoustic cell is connected with vacuum line with gas piping, and vacuum line is connected with vacuum pump; Chopper is connected with the chopper controller; Optical filter wheel is connected with single-chip microcomputer; Microphone and lock amplification module mutually, baroceptor is connected with single-chip microcomputer, and temperature sensor is connected with A/D converter; A/D converter and lock amplification module connection mutually, single-chip microcomputer is connected with working power with liquid crystal drive and display screen.

2. portable SF as claimed in claim 1 ₆The optoacoustic spectroscopy pick-up unit of decomposing gas thing is characterized in that, said shell is divided into two-layer up and down, separates with dividing plate, and parabolic post mirror, infrared light supply, chopper, optical filter wheel and photoacoustic cell are packed in the shell upper strata; Chopper controller, lock phase amplification module, A/D converter, single-chip microcomputer, voltage stabilizer, liquid crystal drive and display screen are packed in lower floor.

3. portable SF as claimed in claim 1 ₆The optoacoustic spectroscopy pick-up unit of decomposing gas thing is characterized in that the junction of said photoacoustic cell and gas piping and vacuum line is respectively equipped with gas admittance valve and air outlet valve.

4. portable SF as claimed in claim 1 ₆The optoacoustic spectroscopy pick-up unit of decomposing gas thing is characterized in that, said photoacoustic cell is a single order longitudinal resonance photoacoustic cell; Axial centre place in the right cylinder of photoacoustic cell is provided with resonator cavity; The inwall of resonator cavity in order to produce photoacoustic signal, also is respectively equipped with buffering air chamber at the two ends of resonator cavity through polishing; Interference in order to the noise that reduces the generation of said optical window absorption infrared light causes photoacoustic signal is provided with a through hole in the upper end of described photoacoustic cell simultaneously; Described microphone is fixed in this through hole; And through described signal cable and the input end connection of amplification module mutually of described lock; The photoacoustic signal that described microphone produces resonator cavity converts to and is transferred to described lock phase amplification module through signal cable behind the electric signal and detects; Be connected with described A/D converter through signal cable again then, again the digital signal input single-chip microcomputer that comes out handled.

5. portable SF as claimed in claim 1 ₆The optoacoustic spectroscopy pick-up unit of decomposing gas thing; It is characterized in that; Said working power mainly is made up of transformer, rectification module and lithium battery; The former limit of transformer is electrically connected with the city; The secondary of transformer is connected with the input end of rectification module, and the output terminal of rectification module is connected with power switch with after lithium battery is parallelly connected again; Then through power lead respectively with described infrared light supply, chopper, optical filter wheel, microphone, temperature sensor, baroceptor, copped wave controller, lock mutually the power end of amplifying unit, A/D converter, single-chip microcomputer, liquid crystal drive and display screen, vacuum pump, gas admittance valve and air outlet valve coil join, in order to supply with the working power of above-mentioned each element; Lithium battery and transformer and rectification module adopt the floating charging operation mode.

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