CN201488981U - Headspace sample absorption analysis device - Google Patents

Headspace sample absorption analysis device Download PDF

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Publication number
CN201488981U
CN201488981U CN2009201693774U CN200920169377U CN201488981U CN 201488981 U CN201488981 U CN 201488981U CN 2009201693774 U CN2009201693774 U CN 2009201693774U CN 200920169377 U CN200920169377 U CN 200920169377U CN 201488981 U CN201488981 U CN 201488981U
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CN
China
Prior art keywords
carrier gas
pipeline
absorption
communicated
sample
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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.)
Expired - Lifetime
Application number
CN2009201693774U
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Chinese (zh)
Inventor
何启发
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.)
CHENGDU COLIN TECH Co Ltd
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CHENGDU COLIN TECH Co Ltd
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Filing date
Publication date
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Priority to CN2009201693774U priority Critical patent/CN201488981U/en
Application granted granted Critical
Publication of CN201488981U publication Critical patent/CN201488981U/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Abstract

The utility model discloses a headspace sample absorption analysis device which comprises: double needles that comprise a carrier gas inlet hole and a gas outlet hole and have one end inserted in a sample bottle; a first carrier gas pipeline communicated with the carrier gas inlet hole; a first connecting pipeline with a first end communicated with the gas outlet hole; an absorption tube that comprises an inlet, an outlet, an absorption analysis inlet and an absorption analysis outlet and is filled with absorbent; a second connecting pipeline communicated with the outlet of the absorption tube; an absorption analysis pipeline communicated with the absorption analysis inlet and the absorption analysis outlet; a second carrier gas pipeline; a third carrier gas pipeline; an exhaust pipeline; and a conveying pipeline connected with a gas chromatograph, wherein a second end of the first connecting pipeline passes through the inlet of the absorption tube and the absorbent and extends out of an absorbent end surface; a switching valve is arranged among the second connecting pipeline, the exhaust pipeline, the second carrier gas pipeline and the conveying pipeline; and a first control valve and a second control valve are arranged between the third carrier gas pipeline and the absorption analysis pipeline. Simultaneously, the absorption analysis device has the functions of headspace, blowing and gathering, is short in sample extraction and analysis time and can obtain lower detection limit and high sensitivity.

Description

Adsorption and analysis device of headspace sample
Technical field:
The utility model relates to a kind of sample pre-treatments equipment of analytical instrument, special relevant with adsorption and analysis device of headspace sample.
Background technology:
Headspace analysis is put into a closed container with sample liquids or solid exactly, forms a kind of balance at sample and gas above it, based on a kind of basic physical rule, the intrinsic volatile compound of sample will appear at gaseous form it above.Relative concentration between the two-phase will depend on that these compounds are at that time dividing potential drop.Only need to extract that a part of gaseous substance just can be analyzed volatile organic matter and the interference that is not subjected to non-waving property material, headspace analysis method that Here it is.Sample can be extracted rapidly and accurately and sends into that gas chromatograph detects is that development of analytical instrumentation requires and trend, and also be present scientific development and people's lives to the detection of organic volatile low content, as the requirement of environment measuring, food security or the like, promptly can carry out online concentrating to sample.Headspace sample gas directly is extracted to be sent into gas chromatograph and can obtain extraordinary reappearance, because do not concentrate, so the extraction time of sample and analysis time all to want much shorter, shortcoming be that minimum detectability is not so good as the extraction through concentrating; And can obtain lower detection limit and high sensitivity through the extraction that concentrates, and need the corresponding time of extraction of concentration process will be longer, the reappearance of its analysis result is also less better.Two kinds of instruments have just appearred in the tradition development: static head space, sample directly extract and send into gas chromatograph; Dynamically head space is sent into gas chromatograph through resolving after concentrating again.
The utility model content:
The purpose of this utility model is in order to overcome above deficiency, a kind of gas restriction technique is provided, acquisition has head space and purge and trap function under any hardware condition not needing to change, sample extraction is short analysis time, can obtain lower detection limit and highly sensitive adsorption and analysis device of headspace sample.In the purge and trap process, improve absorption analyzing efficiency and reappearance.
The purpose of this utility model is achieved like this:
The utility model adsorption and analysis device of headspace sample, comprise sample bottle, it is characterized in that having the into outer pin and the crosspointer that is arranged in the pin that contains venthole of outer pin in carrier gas hole of containing in the end insertion sample bottle, first end is connected with carrier gas source and second end advances first carrier gas channel that the carrier gas hole is communicated with outer pin, first connecting tube that first end is communicated with interior pin venthole, contain import, the adsorption tube of importing and exporting that adsorbent is housed is resolved in outlet and absorption, second connecting tube that first end is communicated with the adsorption tube outlet, first end is resolved with adsorption tube absorption and is imported and exported the absorption parsing pipeline that is communicated with, second carrier gas channel that first end is communicated with carrier gas source, the 3rd carrier gas channel, gas exhaust duct, the conveyance conduit that first end is connected with gas chromatograph, second end of first connecting tube passes the adsorption tube import and adsorbent stretches out the adsorbent end face, second end at second connecting tube, gas exhaust duct, second end of second carrier gas channel, it is logical that control second connecting tube and gas exhaust duct are housed between conveyance conduit second end, disconnected, it is logical to reach second connecting tube and conveyance conduit, disconnected, it is logical to reach second carrier gas channel and conveyance conduit, disconnected transfer valve, having control the 3rd carrier gas channel and absorption to resolve pipeline between the 3rd carrier gas channel second end and absorption parsing inlet and outlet piping leads to, the first disconnected operation valve, second operation valve, the 3rd operation valve is housed on first carrier gas channel, the 4th operation valve is housed on the gas exhaust duct.
During the utility model work, rotate transfer valve, second connecting tube directly is communicated with conveyance conduit, the head space gas of the organic volatile in the sample bottle directly passes adsorption tube and not process absorption through the venthole and first connecting tube of crosspointer, be communicated to gas chromatograph not absorption and resolving from second connecting tube and transfer valve and conveyance conduit, extraction time is short, and favorable reproducibility is finished analysis task fast; Rotate transfer valve, second connecting tube is communicated with gas exhaust duct, disconnect the 4th operation valve, open second operation valve, sample gas is from adsorption tube process adsorbents adsorb, and the residue carrier gas is resolved import and export, pipeline to first operation valve through absorption, flows out through second operation valve again.After absorption is finished, rotate transfer valve, close the 3rd operation valve, adsorption tube is heated, close second operation valve, carrier gas enters gas chromatograph through transfer valve again through the sample outflow adsorption tube that first operation valve and absorption parsing pipeline enter adsorption tube promotion parsing, simultaneously because sample bottle does not have other outlet except that first pipeline, so the sample gas of resolving can not return sample bottle, to still obtaining very low detection limit through the sample analysis that concentrates.
The utility model is sent portion gas into gas chromatograph analysis then by heating makes volatile organic matter in the sample evaporate into upper part in the sample bottle as much as possible to airtight headspace sample bottle.The utility model opens and closes, switches and both can make enriched sample gas directly be sent into gas chromatograph analysis by valve, can make low concentration sample gas concentrate heating then through cryosorption earlier again and resolve (release) and enter gas chromatograph analysis; Such conversion does not need to change any hardware, and only need can be realized by the direction and the size of the control break air-flow of valve, have both improved efficient, can satisfy the requirement of low content sample analysis again, have saved cost simultaneously.
The utility model device has head space and purge and trap function simultaneously, sample extraction is short analysis time, can obtain lower detection limit and high sensitivity, the more important thing is that head space and purge and trap function can freely switch under the condition of not changing any hardware, can directly use the head space extracting method.If requiring has lower detection limit to sample, head space can be extracted and sample capture associating use.
Description of drawings:
Fig. 1 is the utility model structural representation.
Fig. 2 is the adsorption tube fundamental diagram.
The utility model working position figure when Fig. 3 passes through adsorbent for sample gas.
Fig. 4 for sample gas through the utility model working position figure behind the adsorbent.
The utility model working position figure when Fig. 5 does not concentrate for the direct head space of sample extracts.
Embodiment:
Referring to Fig. 1, the present embodiment adsorption and analysis device of headspace sample, comprise sample bottle 1, one end inserts the into outer pin 3 and the crosspointer 6 that is arranged in the pin that contains venthole 45 of outer pin in carrier gas hole 2 of containing in the sample bottle, first end is connected with carrier gas source and second end advances first carrier gas channel 7 that the carrier gas hole is communicated with outer pin, first connecting tube 8 that first end is communicated with interior pin venthole, contain import 9, outlet 10 and absorption are resolved and are imported and exported 11 the adsorption tube that adsorbent is housed 12, second connecting tube 13 that first end is communicated with the adsorption tube outlet, first end is resolved with adsorption tube absorption and is imported and exported the absorption parsing pipeline 14 that is communicated with, second carrier gas channel 15 that first end is communicated with carrier gas source respectively, the 3rd carrier gas channel 16, the conveyance conduit 18 that gas exhaust duct 17, the first ends are connected with gas chromatograph.Second end of first connecting tube passes the adsorption tube import and adsorbent stretches out adsorbent end face A.Control second connecting tube and gas exhaust duct switching and second connecting tube and conveyance conduit switching are housed between second end of second end of second connecting tube, gas exhaust duct, second carrier gas channel, conveyance conduit second end, reach the transfer valve 19 of second carrier gas channel and conveyance conduit switching.Resolving pipeline enclosure in the 3rd carrier gas channel second end and absorption has control absorption to resolve first operation valve 20, second operation valve 21 of pipeline and the 3rd carrier gas channel break-make.The 3rd operation valve 22 is housed on first carrier gas channel, the 4th operation valve 23 is housed on the gas exhaust duct.
Referring to Fig. 2, first end of first connecting tube passes the A place that adsorption tube import and adsorbent arrive the adsorbent end face, and second connecting tube and absorption are resolved pipeline and resolved import and export from adsorption tube outlet and absorption respectively and draw.When adsorbing the disconnection of parsing pipeline, the adsorbent that sample gas can directly pass the adsorption tube from first connecting tube directly arrives second connecting tube, without absorption, and direct headspace sampling function that Here it is; When second connecting tube disconnects, adsorbs the connection of parsing pipeline, sample is through adsorbent, on adsorbent, be concentrated, after concentrated finishing, adsorption tube is heated, resolve pipeline from absorption and inject carrier gas, second connecting tube is connected to gas chromatograph, and concentrated sample promotes sample to gas chromatograph by carrier gas with the direction opposite with when absorption with regard to resolved release, the function of Here it is purge and trap.
Fig. 5 is that the direct head space of sample extracts, and does not have the figure through concentrating, and the head space gas of the organic volatile in the sample bottle directly passes adsorption tube and not through absorption, is communicated to gas chromatograph by transfer valve 19 through the interior pipe of crosspointer.Do not adsorb and resolving, extraction time is short, and favorable reproducibility is finished analysis task fast.
Fig. 3 is the figure of sample through adsorbent.The head space gas of the organic volatile in the sample bottle directly passes adsorbent through the interior pipe of crosspointer, since the b of transfer valve 19 and d be disconnect, the 4th operation valve 23 also disconnects, the e of first operation valve 20 and g UNICOM, second operation valve 21 is also opened, sample gas is held in the process adsorbents adsorb from the A of adsorption tube, remaining carrier gas is resolved pipeline to first operation valve 20 from inhaling attached dose of import and export of wound through absorption, flows out through second operation valve 21 again.Enter process shown in Figure 4 after absorption is finished: the 3rd operation valve 22 disconnects, adsorption tube is heated, second operation valve 21 is closed, carrier gas enters gas chromatograph through the e and the f of first operation valve 20 from b and the d that adsorbent enters the sample outflow adsorption tube process transfer valve 19 of adsorption tube promotion parsing, simultaneously owing to second operation valve 22 disconnects, so the sample gas of resolving can not return sample bottle.To obtaining very low detection limit through the sample analysis that concentrates.
The utility model has possessed the function of head space and purge and trap simultaneously; Switching between these two kinds of functions does not need to change any hardware, only needs can finish by valve control air flow direction; On capture of connecting and analytic tube, realized reverse resolution.
The foregoing description is that foregoing of the present utility model is further described, but this should be interpreted as that the scope of the above-mentioned theme of the utility model only limits to the foregoing description.All technology that realizes based on foregoing all belong to scope of the present utility model.

Claims (1)

1. adsorption and analysis device of headspace sample, comprise sample bottle, it is characterized in that having the into outer pin and the crosspointer that is arranged in the pin that contains venthole of outer pin in carrier gas hole of containing in the end insertion sample bottle, first end is connected with carrier gas source and second end advances first carrier gas channel that the carrier gas hole is communicated with outer pin, first connecting tube that first end is communicated with interior pin venthole, contain import, the adsorption tube of importing and exporting that adsorbent is housed is resolved in outlet and absorption, second connecting tube that first end is communicated with the adsorption tube outlet, first end is resolved with adsorption tube absorption and is imported and exported the absorption parsing pipeline that is communicated with, second carrier gas channel that first end is communicated with carrier gas source respectively, the 3rd carrier gas channel, gas exhaust duct, the conveyance conduit that first end is connected with gas chromatograph, second end of first connecting tube passes the adsorption tube import and adsorbent stretches out the adsorbent end face, second end at second connecting tube, gas exhaust duct, second end of second carrier gas channel, it is logical that control second connecting tube and gas exhaust duct are housed between conveyance conduit second end, disconnected and second connecting tube leads to conveyance conduit, disconnected, it is logical to reach second carrier gas channel and conveyance conduit, disconnected transfer valve, having control the 3rd carrier gas channel and absorption to resolve pipeline at the 3rd carrier gas channel second end with absorption parsing pipeline enclosure leads to, the first disconnected operation valve, second operation valve, the 3rd operation valve is housed on first carrier gas channel, the 4th operation valve is housed on the gas exhaust duct.
CN2009201693774U 2009-08-25 2009-08-25 Headspace sample absorption analysis device Expired - Lifetime CN201488981U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2009201693774U CN201488981U (en) 2009-08-25 2009-08-25 Headspace sample absorption analysis device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2009201693774U CN201488981U (en) 2009-08-25 2009-08-25 Headspace sample absorption analysis device

Publications (1)

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CN201488981U true CN201488981U (en) 2010-05-26

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Country Status (1)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101634647B (en) * 2009-08-25 2011-11-02 成都科林分析技术有限公司 Adsorption and analysis device of headspace sample

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101634647B (en) * 2009-08-25 2011-11-02 成都科林分析技术有限公司 Adsorption and analysis device of headspace sample

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C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20100526

Effective date of abandoning: 20090825