CN203758912U - Sulfur hexafluoride gas component analyzer - Google Patents

Sulfur hexafluoride gas component analyzer Download PDF

Info

Publication number
CN203758912U
CN203758912U CN201420017892.1U CN201420017892U CN203758912U CN 203758912 U CN203758912 U CN 203758912U CN 201420017892 U CN201420017892 U CN 201420017892U CN 203758912 U CN203758912 U CN 203758912U
Authority
CN
China
Prior art keywords
catoptron
air chamber
light path
infrared
atmospheric air
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN201420017892.1U
Other languages
Chinese (zh)
Inventor
张玉钧
高闽光
张立强
蔡毅敏
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NANJING SHUNTAI TECHNOLOGY Co Ltd
Original Assignee
NANJING SHUNTAI TECHNOLOGY Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NANJING SHUNTAI TECHNOLOGY Co Ltd filed Critical NANJING SHUNTAI TECHNOLOGY Co Ltd
Priority to CN201420017892.1U priority Critical patent/CN203758912U/en
Application granted granted Critical
Publication of CN203758912U publication Critical patent/CN203758912U/en
Anticipated expiration legal-status Critical
Withdrawn - After Issue legal-status Critical Current

Links

Landscapes

  • Investigating Or Analysing Materials By Optical Means (AREA)

Abstract

The utility model discloses a sulfur hexafluoride gas component analyzer which comprises an atmosphere chamber, a power supply and a circuit control board, wherein an infrared light source and a light path output window are arranged on the left side wall of the atmosphere chamber, and an atmosphere chamber air inlet and an atmosphere chamber air outlet are formed in the rear wall of the atmosphere chamber; a helium and neon light source, a first reflecting mirror and a second reflecting mirror are arranged on the left side outside the atmosphere chamber; an interferometer and a sensor are arranged inside the atmosphere chamber; the interferometer comprises a third reflecting mirror, a fourth reflecting mirror, a beam splitter, an infrared completely-reflecting mirror, a laser detector, a fifth reflecting mirror, a small air chamber and an infrared detector, and the power supply is used for supplying power to all the structures; the circuit control board is used for controlling the running of the infrared light source, the helium and neon light source, the small air chamber and the power supply as well as receiving and processing signals transmitted by the sensor, the laser detector, the infrared detector and the small air chamber. The sulfur hexafluoride gas component analyzer provided by the utility model is simple in structure, free from influences of external environment, high in analysis precision and also wide in application range, and the amount of required gas is small.

Description

A kind of sulfur hexafluoride gas component analysis instrument
Technical field
The utility model relates to a kind of gas composition analyser, relates in particular to a kind of sulfur hexafluoride gas component analysis instrument.
Background technology
Sulfur hexafluoride (SF 6) gas has good insulation and arc extinction performance, can greatly reduce equipment size, is therefore widely used in GIS and SF 6in the equipment such as isolating switch.But result of study shows, works as SF 6while there is insulation fault in equipment, the high-temperature electric arc of discharge generation can make SF 6gas generation decomposition reaction, SF 6decomposition product when inside electric appliance fault is mainly sulfide and fluoride, and sulfide is mainly by SO 2, H 2s, SF 4, SO 2f 2and SOF 2deng, fluoride is mainly by HF, CF 4and metal fluoride.In above-mentioned analyte except SO 2, H 2s and CF 4outside toxicity is little, other is all violent in toxicity.
The gas content that tradition sulfur hexafluoride gas component analysis instrument needs in analysis bank timesharing is more, and these violents in toxicity are few at the content of traditional analysis instrument inside, are difficult to detect, and also extremely unstable, wherein SF 4, SOF 2produce stable SO Deng can be hydrolyzed again 2and HF.In addition, in fact use in SF 6gas always contains a certain amount of air and moisture, and the multiple low-fluorine sulfide generating due to above-mentioned decomposition is very active, with SF 6micro-moisture and oxygen etc. in gas react, and produce SOF 2, SO 2f 2, SOF 4, SO 2with poisonous gas such as HF, so just make to be vulnerable to the impact of external environment in the time utilizing traditional sulfur hexafluoride gas component analysis instrument to analyze, not only have a strong impact on its analysis precision, can only in laboratory, use but also limited it, and can not be applied to working-yard, very big its scope of application of having dwindled.
Summary of the invention
The technical problems to be solved in the utility model is, for sulfur hexafluoride gas component analysis instrument in prior art detect desired gas amount greatly, be easily affected by the external environment, the above-mentioned defect such as the low and scope of application of analysis precision is little, provide a kind of simple in structure, desired gas amount is little, be not affected by the external environment, analysis precision is high and the scope of application is large sulfur hexafluoride gas component analysis instrument.
The utility model solves the technical scheme that its technical matters adopts: a kind of sulfur hexafluoride gas component analysis instrument, comprises atmospheric air chamber, power supply and circuit control panel;
Atmospheric air chamber left side wall is provided with infrared light supply and light path output window, and atmospheric air chamber rear wall is provided with atmospheric air chamber air intake opening and atmospheric air chamber gas outlet;
Atmospheric air chamber outer left side is provided with He-Ne light source, the first catoptron and the second catoptron; The first catoptron is arranged in the incident beam light path of He-Ne light source, and the second catoptron is positioned in the folded light beam light path of the first catoptron, and light path output window is positioned in the folded light beam light path of the second catoptron;
Atmospheric air chamber inside is provided with interferometer and is positioned at the sensor at interferometer rear;
Interferometer comprise be arranged in infrared light supply incident beam light path and the second catoptron folded light beam light path on the 3rd catoptron, be arranged on the 4th catoptron in the 3rd catoptron folded light beam light path, be arranged on the beam splitter in the 4th catoptron folded light beam light path, be arranged on the infrared completely reflecting mirror of position, beam splitter upper right side, be arranged on laser detector and the 5th catoptron in beam splitter transmitted light beam light path, be positioned at the little air chamber in the 5th catoptron folded light beam light path and be positioned at the infrared eye in the outgoing beam light path of stingy chamber,
Power supply is above-mentioned each structure power supply; The operation of circuit control panel control infrared light supply, He-Ne light source, little air chamber and power supply, receives the also signal of processes sensor, laser detector, infrared eye and the transmission of stingy chamber.
In sulfur hexafluoride gas component analysis instrument described in the utility model, on atmospheric air chamber left side wall, be provided with infrared light supply, and the infrared eye of interferometer inside is for signals such as detected temperatures, the utility model is to adopt infrared spectrum to carry out analytical gas component as can be seen here, Infrared spectroscopy characteristic is strong, to gas, liquid and solid sample all can be measured, and it is few that it detects required gas flow, analysis speed is fast, do not destroy sample, solve in traditional components analyser because gas content is seldom difficult to the technical matters detecting, but also contribute to improve its analysis speed.
Atmospheric air chamber outer left side is provided with He-Ne light source, the first catoptron and the second catoptron, and the light beam that He-Ne light source sends relies on the reflection of the first catoptron and the second catoptron and injects in atmospheric air chamber, and the laser detector in interferometer is used for surveying coherent signal.
Be provided with sensor in atmospheric air chamber internal intervention instrument rear position, this sensor is for signals such as the indoor humidity of atmospheric sounding and this signal is transferred to circuit control panel.
Hence one can see that, sulfur hexafluoride gas component analysis instrument described in the utility model is incorporated into various functional parts in atmospheric air chamber, not only simplify the structure of described analyser, but also in the environment of the opticator that makes described analyser in a sealing, it is isolated from the outside, this just can exempt the impact on analysis precision such as air and moisture etc. in external environment to a certain extent, has significantly improved the analysis precision of described analyser.In addition, because described analyser can be avoided the impact of external environment, therefore described analyser can not only use in laboratory, can also carry out at the construction field (site) detecting and analyzing in real time, expand its scope of application.
Improve as the one to technical scheme described in the utility model, sensor is humidity sensor.This humidity sensor can detect in real time to the humidity in atmospheric air chamber, and testing result is transferred to circuit control panel, is moved by circuit control panel control associated mechanisms.
Improve as the one to technical scheme described in the utility model, also comprise and be positioned at the liquid nitrogen container that atmospheric air chamber is outside and be connected with atmospheric air chamber, liquid nitrogen container is also connected with infrared eye with laser detector respectively by pipeline.The design of liquid nitrogen container, can give laser detector and infrared eye cooling on the one hand, ensures that the two is all the time in good working order, on the other hand, in the time that humidity sensor detects that atmosphere indoor humidity exceedes preset value, liquid nitrogen container just can purge atmospheric air chamber inside under the control of circuit control panel, in the time that humidity sensor detects that atmosphere indoor humidity is within preset value, liquid nitrogen container can not purge atmospheric air chamber, such design can not only ensure the dry of atmospheric air chamber internal environment the moment, avoid moisture to exert an influence to the analysis result of little air chamber, be of value to the analysis precision that improves described analyser, and can also avoid liquid nitrogen container for a long time atmospheric air chamber inside to be purged, save cost.
Improve as the one to technical scheme described in the utility model, on stingy chamber left side wall and right side wall, be respectively equipped with light input port and light delivery outlet, and top, stingy chamber is provided with little air inlet of air chamber and gas outlet, stingy chamber.
Improve as the one to technical scheme described in the utility model, stingy outdoor is provided with the 6th catoptron being positioned in the 5th catoptron folded light beam light path and is positioned at the 7th catoptron in the 6th catoptron folded light beam light path, and light input port is positioned in the folded light beam light path of the 7th catoptron.
When infrared beam and He-Ne light beam inject after little air chamber via the reflection of the 6th catoptron and the 7th catoptron, by little air chamber, the light beam entering and gas are analyzed.
In addition, in the technical scheme described in the utility model, all being not specifically noted, all can be by adopting the conventional means in this area realize the technical program.
Therefore, the utility model provides a kind of sulfur hexafluoride gas component analysis instrument, and this analyser is simple in structure, and desired gas amount is little, is not affected by the external environment, and analysis precision is high, and its scope of application is large.
Brief description of the drawings
Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:
Fig. 1 is the structural representation of the utility model sulfur hexafluoride gas component analysis instrument;
Fig. 2 is the structural representation of little air chamber;
In accompanying drawing, 1 is atmospheric air chamber, 2 is infrared light supply, 3 is light path output window, 4 is atmospheric air chamber air intake opening, 5 is atmospheric air chamber gas outlet, 6 is He-Ne light source, 7 is the first catoptron, 8 is the second catoptron, 9 is interferometer, 10 is the 3rd catoptron, 11 is the 4th catoptron, 12 is beam splitter, 13 is infrared completely reflecting mirror, 14 is laser detector, 15 is the 5th catoptron, 16 is little air chamber, 17 is infrared eye, 18 is sensor, 19 is liquid nitrogen container, 20 is light input port, 21 is light delivery outlet, 22 is little air inlet of air chamber, 23 is gas outlet, stingy chamber, 24 is the 6th catoptron, 25 is the 7th catoptron, 26 is power supply, 27 is circuit control panel.
Embodiment
In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.
In the utility model preferred embodiment, a kind of sulfur hexafluoride gas component analysis instrument, comprises atmospheric air chamber 1, power supply 26 and circuit control panel 27.
As shown in Figure 1, atmospheric air chamber 1 left side wall is provided with infrared light supply 2 and light path output window 3, is provided with atmospheric air chamber air intake opening 4 and atmospheric air chamber gas outlet 5 on atmospheric air chamber 1 rear wall; Atmospheric air chamber 1 outer left side is provided with He-Ne light source 6, the first catoptron 7 and the second catoptron 8, wherein, this first catoptron 7 is arranged in the incident beam light path of above-mentioned He-Ne light source 6, the second catoptron 8 is positioned in the folded light beam light path of the first catoptron 7, and light path output window 3 is positioned in the folded light beam light path of this second catoptron 8.
Atmospheric air chamber 1 inside is provided with interferometer 9 and is positioned at the humidity sensor 18 of these interferometer 9 rear positions.This interferometer 9 comprise be arranged in above-mentioned infrared light supply 2 incident beam light paths and above-mentioned the second catoptron 8 folded light beam light paths on the 3rd catoptron 10, be arranged on the 4th catoptron 11 in above-mentioned the 3rd catoptron 10 folded light beam light paths, be arranged on the beam splitter 12 in above-mentioned the 4th catoptron 11 folded light beam light paths, be arranged on the infrared completely reflecting mirror 13 of above-mentioned beam splitter 12 positions, upper right side, be arranged on laser detector 14 and the 5th catoptron 15 in above-mentioned beam splitter 12 transmitted light beam light paths, be positioned at the stingy chamber 16 in above-mentioned the 5th catoptron 15 folded light beam light paths and be positioned at the infrared eye 17 in these stingy chamber 16 outgoing beam light paths,
The present embodiment also comprises the liquid nitrogen container 19 that is positioned at atmospheric air chamber 1 outside and is connected with this atmospheric air chamber 1, and this liquid nitrogen container 19 is also connected with infrared eye 17 with above-mentioned laser detector 14 respectively by pipeline.
In above-mentioned stingy chamber 16, on its left side wall and right side wall, be respectively equipped with light input port 20 and light delivery outlet 21, and these 16 tops, stingy chamber are provided with little air inlet of air chamber 22 and gas outlet, stingy chamber 23; In addition, these 16 outsides, stingy chamber are also provided with and are positioned at the 6th catoptron 24 in above-mentioned the 5th catoptron 15 folded light beam light paths and are positioned at the 7th catoptron 25 in the 6th catoptron 24 folded light beam light paths, and above-mentioned light input port 20 is positioned in the folded light beam light path of the 7th catoptron 25.
In the present embodiment, power supply 26 is above-mentioned each structure power supply, circuit control panel 27 is controlled the operation of infrared light supply 2, He-Ne light source 6, stingy chamber 16, liquid nitrogen container 19 and power supply 26, receives and process the signal that transmit above-mentioned humidity sensor 18, laser detector 14, infrared eye 17 and stingy chamber 16.
In addition, in the present embodiment, the first catoptron 7, the second catoptron 8, beam splitter 12 and infrared completely reflecting mirror 13 are all with 45 oangle upper right side is obliquely installed, and the 3rd catoptron 10, the 4th catoptron 11, the 5th catoptron 15, the 6th catoptron 24 and the 7th catoptron 25 are all with 45 oangle upper left side is obliquely installed.
The sulfur hexafluoride gas component analysis instrument that the present embodiment provides is simple in structure, and it is little that it detects analysis desired gas amount, is not affected by the external environment, and analysis precision is high, and its scope of application is large.
Should be understood that, for those of ordinary skills, can be improved according to the above description or convert, and all these improvement and conversion all should belong to the protection domain of the utility model claims.

Claims (5)

1. a sulfur hexafluoride gas component analysis instrument, is characterized in that, comprises atmospheric air chamber (1), power supply (26) and circuit control panel (27);
Described atmospheric air chamber (1) left side wall is provided with infrared light supply (2) and light path output window (3), and described atmospheric air chamber (1) rear wall is provided with atmospheric air chamber air intake opening (4) and atmospheric air chamber gas outlet (5);
Described atmospheric air chamber (1) outer left side is provided with He-Ne light source (6), the first catoptron (7) and the second catoptron (8); Described the first catoptron (7) is arranged in the incident beam light path of described He-Ne light source (6), described the second catoptron (8) is positioned in the folded light beam light path of described the first catoptron (7), and described light path output window (3) is positioned in the folded light beam light path of described the second catoptron (8);
Described atmospheric air chamber (1) inside is provided with interferometer (9) and is positioned at the sensor (18) at described interferometer (9) rear;
Described interferometer (9) comprise be arranged in described infrared light supply (2) incident beam light path and described the second catoptron (8) folded light beam light path on the 3rd catoptron (10), be arranged on the 4th catoptron (11) in described the 3rd catoptron (10) folded light beam light path, be arranged on the beam splitter (12) in described the 4th catoptron (11) folded light beam light path, be arranged on the infrared completely reflecting mirror (13) of described beam splitter (12) position, upper right side, be arranged on laser detector (14) and the 5th catoptron (15) in described beam splitter (12) transmitted light beam light path, be positioned at the little air chamber (16) in described the 5th catoptron (15) folded light beam light path and be positioned at the infrared eye (17) in described little air chamber (16) outgoing beam light path,
Described power supply (26) is above-mentioned each structure power supply; Described circuit control panel (27) is controlled the operation of infrared light supply (2), He-Ne light source (6), little air chamber (16) and power supply (26), receives and process the signal of described sensor (18), laser detector (14), infrared eye (17) and little air chamber (16) transmission.
2. sulfur hexafluoride gas component analysis instrument according to claim 1, is characterized in that, described sensor (18) is humidity sensor.
3. sulfur hexafluoride gas component analysis instrument according to claim 1, it is characterized in that, also comprise and be positioned at the liquid nitrogen container (19) that described atmospheric air chamber (1) is outside and be connected with described atmospheric air chamber (1), described liquid nitrogen container (19) is also connected with infrared eye (17) with laser detector (14) respectively by pipeline.
4. sulfur hexafluoride gas component analysis instrument according to claim 1, it is characterized in that, on described little air chamber (16) left side wall and right side wall, be respectively equipped with light input port (20) and light delivery outlet (21), and little air chamber (16) top is provided with little air inlet of air chamber (22) and gas outlet, stingy chamber (23).
5. sulfur hexafluoride gas component analysis instrument according to claim 4, it is characterized in that, described little air chamber (16) outside is provided with and is positioned at the 6th catoptron (24) in described the 5th catoptron (15) folded light beam light path and is positioned at the 7th catoptron (25) in described the 6th catoptron (24) folded light beam light path, and described light input port (20) is positioned in the folded light beam light path of described the 7th catoptron (25).
CN201420017892.1U 2014-01-13 2014-01-13 Sulfur hexafluoride gas component analyzer Withdrawn - After Issue CN203758912U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420017892.1U CN203758912U (en) 2014-01-13 2014-01-13 Sulfur hexafluoride gas component analyzer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420017892.1U CN203758912U (en) 2014-01-13 2014-01-13 Sulfur hexafluoride gas component analyzer

Publications (1)

Publication Number Publication Date
CN203758912U true CN203758912U (en) 2014-08-06

Family

ID=51254168

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420017892.1U Withdrawn - After Issue CN203758912U (en) 2014-01-13 2014-01-13 Sulfur hexafluoride gas component analyzer

Country Status (1)

Country Link
CN (1) CN203758912U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103712953A (en) * 2014-01-13 2014-04-09 南京顺泰科技有限公司 Sulfur hexafluoride gas component analyzer
CN110542670A (en) * 2019-08-29 2019-12-06 北京中仪智控科技有限公司 Realize online near-infrared analyzer of many indexes simultaneous detection

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103712953A (en) * 2014-01-13 2014-04-09 南京顺泰科技有限公司 Sulfur hexafluoride gas component analyzer
CN110542670A (en) * 2019-08-29 2019-12-06 北京中仪智控科技有限公司 Realize online near-infrared analyzer of many indexes simultaneous detection

Similar Documents

Publication Publication Date Title
CN104062153B (en) Purging sampler and purging sampling method for gaseous impurity content analysis
CN202486111U (en) Gas chromatography system for analyzing sulfur hexafluoride decomposed product
CN203758912U (en) Sulfur hexafluoride gas component analyzer
CN106770698A (en) A kind of GIS device method for diagnosing faults based on PDHID multicomponent gases
US10830741B1 (en) Combined structure of UHV characterization instrument-interconnected in-situ reaction cell and built-in mass spectrometer electric quadrupole
Wang et al. Research on infrared spectrum characteristics and detection technology of environmental-friendly insulating medium C5F10O
CN203324174U (en) Multi-optical-path air chamber used in terahertz system
CN103712953B (en) A kind of sulfur hexafluoride gas component analysis instrument
CN109884002A (en) One kind measuring atmosphere OH and HO for chemical ionization mass spectrometry2The device and method of free radical
Wang et al. Rapid detection of dissolved acetylene in oil based on T‐type photoacoustic cell
CN202305489U (en) Chromatographic instrument for detecting failure of SF6 electric equipment
CN204514858U (en) A kind of NMHC gas detecting instrument
CN205719672U (en) A kind of micro amount of oxygen quick analytical sampling system
CN204116224U (en) A kind of sulfur hexafluoride component analysis instrument
CN204086065U (en) A kind of thermogravimetric molecular tree combined apparatus
WO2004072601A3 (en) Method and device for recognizing leaks
JP3127573U (en) Gas chromatograph
CN204301860U (en) A kind of spectrometer
CN205103158U (en) Normal position formula laser spectrum gas analysis device
CN108072612A (en) A kind of compact variable light path gas sample cell
CN113670819A (en) Ultraviolet difference method smoke comprehensive analyzer
CN202582954U (en) Infrared pollution gas sampling device
CN206459955U (en) Gas phase molecular absorption spectrometer
CN202994559U (en) Gas sampling and heating device
CN215640861U (en) SF6 decomposed gas detection device

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
EE01 Entry into force of recordation of patent licensing contract

Assignee: Nanjing Feibile Photoelectric Technology Co. Ltd.

Assignor: Nanjing Shuntai Technology Co., Ltd.

Contract record no.: 2014320000700

Denomination of utility model: Sulfur hexafluoride gas component analyzer

Granted publication date: 20140806

License type: Common License

Record date: 20141016

LICC Enforcement, change and cancellation of record of contracts on the licence for exploitation of a patent or utility model
AV01 Patent right actively abandoned

Granted publication date: 20140806

Effective date of abandoning: 20150923

RGAV Abandon patent right to avoid regrant