CN201780285U - Universal device for analyzing impurities in high-purity non-corrosive gas - Google Patents

Abstract

The utility model relates to a universal device for analyzing impurities in high-purity non-corrosive gas, which comprises an impurity component separation gas path, a helium ionization detector and an oxygen pre-separation gas path; and the impurity component separation gas path comprises a first-path auxiliary carrier gas steady flow system, a second-path auxiliary carrier gas steady flow system, a sample gas inlet, a sample gas outlet, an exhaust outlet A, a six-way valve with purging function, a sample ring A, a four-way valve A with the purging function, a four-way valve B with the purging function, an analytical chromatographic column A, an analytical chromatographic column B, an analytical chromatographic column C and a three-way valve with zero dead value, and gas flow direction can be changed through switching of the valves, thereby carrying separation and detection. The universal device is simple in structure, the analysis process is simple and fast, and the universal device can carry out on-line detection; the separation effect of impurity components is good; and the same device can complete the analysis demand of a variety of types of high-purity non-corrosive gas.

Description

A kind of fexible unit that is used for analyzing high-purity non-corrosive gas impurity

Technical field

The utility model relates to the pick-up unit of gas, is specially the fexible unit that is used for analyzing and testing high-purity non-corrosive gas impurity.

Background technology

When analyzing high-purity non-corrosive gas, not only want the content of detected gas (spirit) itself, the foreign gas component that also needs to analyze wherein and comprised.

Above-mentioned impurity composition comprises various big molecules and micro-molecular gas, and kind is many, the content difference, and molecular weight difference is big, so during analyzing and testing, analyzes after needing component separated one by one again.

And since in the high-purity non-corrosive gas content of spirit high, foreign gas component kind is many, therefore the impurity composition of trace is wherein detected and has any problem.These impurity compositions are easy to be covered by the spirit of high concentration, and are difficult to separation detection exactly.

In addition, different high-purity non-corrosive gas, especially the analyzing and testing element of oxygen and other gases is different with method, and existing equipment such as single gas chromatograph etc. also can't carry out the detection demand of impurity in the various high-purity non-corrosive gas on same set of equipment.

The utility model content

The utility model aims to provide a kind of fexible unit that is used for detecting high-purity non-corrosive gas impurity.

Its scheme is band to be set purge ten-way valve, band purging six-way valve and purge four-way valve, by the switching of above-mentioned valve, changes gas flow, and the gas with various composition is carried out separation detection.

A kind of device that is used for detecting corrosive gas impurity, its structure comprises: impurity composition separates gas circuit, helium ionization detector and oxygen pre-separation gas circuit;

Impurity composition separates gas circuit and comprises that first via auxiliary carrier gas steady flow system, the second tunnel auxiliary carrier gas steady flow system, sample gas inlet, sample gas outlet, exhaust outlet A, band purging six-way valve, sample loop A, band purge four-way valve A, band purges four-way valve B, analysis chromatographic column A, analyzes chromatographic column B, analyzes chromatographic column C and zero dead volume T-valve;

Wherein the inlet of the two ends of first via auxiliary carrier gas steady flow system, sample gas inlet, sample gas outlet and sample loop A and analysis chromatographic column A is connected respectively to band and purges six-way valve;

Inlet, the vapour lock A of the outlet of analysis chromatographic column A, analysis chromatographic column B are connected respectively to band and purge four-way valve A;

Vapour lock A links to each other with the helium ion detector successively with zero dead volume T-valve, vapour lock B;

Inlet, the second tunnel auxiliary carrier gas steady flow system and the exhaust outlet A of the outlet of analysis chromatographic column B, analysis chromatographic column C are connected respectively to and purge four-way valve B;

The outlet of analyzing chromatographic column C is connected with the other end of zero dead volume T-valve;

Oxygen pre-separation gas circuit comprises that band purges ten-way valve, Third Road auxiliary carrier gas steady flow system, the four tunnel auxiliary carrier gas steady flow system, sample loop B, oxygen adsorption column, analyzes chromatographic column E and exhaust outlet B;

The outlet of oxygen adsorption column with and the inlet of analyzing chromatographic column E link together, the inlet of oxygen adsorption column, analyze chromatographic column E outlet, Third Road auxiliary carrier gas steady flow system, the four tunnel auxiliary carrier gas steady flow system, exhaust outlet B, oxygen intake, oxygen outlet and sample loop B two ends and be connected respectively to band and purge ten-way valve; Band purges ten-way valve and is connected with band purging four-way valve A.

Preferred scheme is:

Band purges six-way valve and is provided with six paths, and first path connects the sample gas inlet, and alternate path connects the sample gas outlet, and the two ends of sample loop A are connected respectively to the 3rd path and the 6th path; The four-way road is connected to first via auxiliary carrier gas steady flow system, and the five-way road is connected to the inlet of analyzing chromatographic column A;

It is two states that band purges six-way valve changeable, and state one is: first path is connected with alternate path, and the 3rd path is connected with the four-way road, and five-way Lu Yudi six paths connect; State two is: first path is connected with the 6th path, and alternate path is connected with the 3rd path, and four-way Lu Yudi five-way road connects.

Band purges four-way valve A and is provided with four paths, first path is connected to band and purges ten-way valve, alternate path connects vapour lock A, zero dead volume T-valve, vapour lock B and helium ion detector successively, and the 3rd path is connected to the outlet of analyzing chromatographic column A, and the four-way road is connected to the inlet of analyzing chromatographic column B;

Band purges four-way valve B first path and is connected to the inlet of analyzing chromatographic column C, and alternate path connects the second tunnel auxiliary carrier gas steady flow system, and the 3rd path is connected to exhaust outlet A, and the four-way road is connected with the outlet of chromatographic column B;

Band purges four-way valve A and is with purging four-way valve B changeable is two states, and state one is: first path is connected with alternate path, and the 3rd path is connected with the four-way road; State two is: first path is connected with the four-way road, and alternate path is connected with the 3rd path.

Band purges ten-way valve and is provided with ten paths, first path is connected with the 8th path successively with oxygen adsorption column, analysis chromatographic column E, the two ends of sample loop B are connected respectively to alternate path and five-way road, the 3rd path is connected with oxygen intake, the four-way road is connected with oxygen outlet, and the 6th path is connected with Third Road auxiliary carrier gas steady flow system, and the 7th path is connected to band and purges four-way valve A, the 9th path is connected to the four tunnel auxiliary carrier gas steady flow system, and the tenth path is connected with exhaust outlet B;

It is two states that band purges ten-way valve changeable, and state one is: first path is connected with alternate path, and the 3rd path is connected with the four-way road, and five-way Lu Yudi six paths connect, and the 7th path is connected with the 8th path, and the 9th path is connected with the tenth path; State two is: first path is connected with the tenth path, and alternate path is connected with the 3rd path, and four-way Lu Yudi five-way road connects, and the 6th path is connected with the 7th path, and the 8th path is connected with the 9th path.

Utilize said apparatus, can analyze impurity in the high-purity non-corrosive gas; Its technical scheme is:

When institute's detected gas during for high-purity non-corrosive gas except that oxygen, step comprises:

(1) sampling: switch band and purge six-way valve, connect sample gas inlet and sample loop A;

(2) sample introduction pre-separation: switch band and purge six-way valve, be with purging four-way valve A and band to purge four-way valve B, connect first via auxiliary carrier gas steady flow system, sample loop and analysis chromatographic column A, analysis chromatographic column B and analysis chromatographic column C; Gas in the sample loop A is blown into analysis chromatographic column A;

(3) separate big molecular impurity component: behind spirit and small molecular weight impurity component outflow analysis chromatographic column A, big molecular impurity component flows out to be analyzed before the chromatographic column A, switch band and purge four-way valve A and zero dead volume T-valve, connect first via auxiliary carrier gas steady flow system, analyze chromatographic column A, vapour lock A, vapour lock B and helium ionization detector, send into and helium ionization detector staying the big molecular impurity component of analyzing among the chromatographic column A;

(4) separate small molecular weight impurity component and spirit: switch band purging four-way valve B, zero dead volume T-valve and band and purge ten-way valve, connect Third Road auxiliary carrier gas steady flow system, analysis chromatographic column B and exhaust outlet A, make and stay the spirit emptying of analyzing in the chromatographic column B; Connect the second tunnel auxiliary carrier gas steady flow system, analyze chromatographic column C, vapour lock B and helium ionization detector, send staying the small molecular weight impurity component of analyzing among the chromatographic column C into helium ionization detector.

When described high-purity non-corrosive gas is oxygen, may further comprise the steps:

(1) sampling: switch band and purge ten-way valve, connect oxygen intake, sample loop B and oxygen outlet;

(2) sample introduction oxygen separation: switch band and purge ten-way valve, be with purging four-way valve A and band to purge four-way valve B, connect the four tunnel auxiliary carrier gas steady flow system, sample loop B, oxygen adsorption column, analyze chromatographic column E, analysis chromatographic column B and analysis chromatographic column C; Gas in the sample loop B is blown into the oxygen adsorption column, absorbs oxygen by the oxygen adsorption column;

(3) separate big molecular impurity component and small molecular weight impurity component: after the small molecular weight impurity component flows into analysis chromatographic column B and analyzes chromatographic column C, big molecular impurity component flows out to be analyzed before the chromatographic column E, switch band and purge four-way valve A and zero dead volume T-valve, connect Third Road auxiliary carrier gas steady flow system, oxygen adsorption column, analyze chromatographic column E, vapour lock A, vapour lock B and helium ionization detector, send staying the big molecular impurity component of analyzing in the chromatographic column E into helium ionization detector; Switch zero dead volume T-valve again, connect first via auxiliary carrier gas steady flow system, analyze chromatographic column B, analyze chromatographic column C, vapour lock B and helium ionization detector, the small molecular weight impurity component after separating is sent into helium ionization detector.

Device of the present utility model can be used as the fexible unit of impurity composition in the various high-purity non-corrosive gas of analyzing and testing, effectively the separation detection impurity composition of trace wherein.By the switching of valve and airflow direction, spirit effectively can be separated with various impurity compositions, avoid because the spirit excessive concentration is covered impurity composition and impact analysis detection effect.

Description of drawings

Fig. 1 is the sampling user mode figure when detecting nitrogen among the embodiment 2

Fig. 2 is the sample introduction pre-separation constitutional diagram when detecting nitrogen among the embodiment 2

Fig. 3 is the big molecular impurity component of the separation user mode figure when detecting nitrogen among the embodiment 2

Fig. 4 is separation small molecular weight impurity component and the spirit user mode figure when detecting nitrogen among the embodiment 2

Fig. 5 is the sampling user mode figure when detecting oxygen among the embodiment 3

Fig. 6 is the sample introduction oxygen separation user mode figure when detecting oxygen among the embodiment 3

Fig. 7 is the big molecular impurity component of the separation user mode figure when detecting oxygen among the embodiment 3

Fig. 8 is the separation small molecular weight impurity component user mode figure when detecting oxygen among the embodiment 3

101-first via auxiliary carrier gas steady flow system, 102-the second tunnel auxiliary carrier gas steady flow system, 103-Third Road auxiliary carrier gas steady flow system, 104-the four tunnel auxiliary carrier gas steady flow system,

105-sample gas inlet, the outlet of 106-sample gas, 107-oxygen intake, 108-oxygen outlet, 109-exhaust outlet A, 110-exhaust outlet B;

The 2-band purges six-way valve, 201-first passage, 202-second channel, 203-third channel, 204-four-way, 205-five-way road, 206-the 6th passage;

301-sample loop A, 302-sample loop B, 401-analyzes chromatographic column A, and 402-analyzes chromatographic column B, and 403-analyzes chromatographic column C, 404-oxygen adsorption column, 405-analyzes chromatographic column E;

The 5-band purges four-way valve A, 501-first passage, 502-second channel, 502-second channel, 203-third channel, 504-four-way;

The 6-band purges four-way valve B, 601-first passage, 602-second channel, 603-third channel, 604-four-way;

The 7-band purges ten-way valve, 701-first passage, 702-second channel, 703-third channel, 704-four-way, 705-five-way road, 706-the 6th passage, 707-the 7th passage, 708-the 8th passage, 709-the 9th passage, 710-the tenth passage;

8-zero dead volume T-valve, 901-helium ionization detector, 902-vapour lock A, 903-vapour lock B

Embodiment

Embodiment 1

To shown in Figure 8, a kind of fexible unit that is used for analyzing high-purity non-corrosive gas impurity comprises that impurity composition separates gas circuit, helium ionization detector and oxygen pre-separation gas circuit as Fig. 1.

Impurity composition separates gas circuit and comprises that first via auxiliary carrier gas steady flow system 101, the second tunnel auxiliary carrier gas steady flow system 102, sample gas inlet 105, sample gas outlet 106, exhaust outlet A109, band purging six-way valve 2, sample loop A 301, band purge four-way valve A 5, band purges four-way valve B 6, analysis chromatographic column A 401, analyzes chromatographic column B 402, analyzes chromatographic column C 403 and zero dead volume T-valve 8;

Oxygen pre-separation gas circuit comprises that band purges ten-way valve 7, Third Road auxiliary carrier gas steady flow system 103, the four tunnel auxiliary carrier gas steady flow system 104, sample loop B 302, oxygen adsorption column 404, analyzes chromatographic column E 405 and exhaust outlet B 110.

Band purges six-way valve and is provided with six paths, and changeable is two states, and state one is: first path 201 is connected with alternate path 202, and the 3rd path 203 is connected with four-way road 204, and five-way road 205 is connected with the 6th path 206; State two is: first path is connected with the 6th path, and alternate path is connected with the 3rd path, and four-way Lu Yudi five-way road connects.

Band purges four-way valve A and band purging four-way valve B is respectively equipped with four paths, and all changeable is two states, and state one is: first path is connected with alternate path, and the 3rd path is connected with the four-way road; State two is: first path is connected with the four-way road, and alternate path is connected with the 3rd path.

Band purges ten-way valve and is provided with ten paths, changeable is two states, state one is: first path 701 is connected with alternate path 702, the 3rd path 703 is connected with four-way road 704, five-way road 705 is connected with the 6th path 706, the 7th path 707 is connected with the 8th path 708, and the 9th path 709 is connected with the tenth path 710; State two is: first path is connected with the tenth path, and alternate path is connected with the 3rd path, and four-way Lu Yudi five-way road connects, and the 6th path is connected with the 7th path, and the 8th path is connected with the 9th path.

Concrete structure is:

First path 201 that band purges six-way valve connects sample gas inlet 105, and alternate path 202 connects sample gas outlet 106, and the two ends of sample loop A 301 are connected respectively to the 3rd path 203 and the 6th path 206; Four-way road 204 is connected to first via auxiliary carrier gas steady flow system 101, the five-way roads 206 and is connected to the inlet of analyzing chromatographic column A 301;

The outlet of analyzing chromatographic column A is connected with the 3rd path 503 that band purges four-way valve A, the alternate path 502 that band purges four-way valve A connects vapour lock A 902, zero dead volume T-valve 8, vapour lock B 903 and helium ion detector 901 successively, four-way road 504 is connected to the inlet of analyzing chromatographic column B402, and first path 501 is connected to band and purges ten-way valve 7;

The outlet of analyzing chromatographic column B is connected to the four-way road 604 that band purges four-way valve B, first path 601 that band purges four-way valve B is connected to the inlet of analyzing chromatographic column C 403, alternate path 602 connects the second tunnel auxiliary carrier gas steady flow system, 102, the three paths 603 and is connected to exhaust outlet A 109;

The outlet of analyzing chromatographic column C is connected to the other end of zero dead volume T-valve 8.

Band purges first path 701 and oxygen adsorption column 404 of ten-way valve, analyzing chromatographic column E 405 is connected successively with the 8th path 708, the two ends of sample loop B 302 are connected respectively to alternate path 702 and the five-way road 705 that band purges ten-way valve, the 3rd path 703 is connected with oxygen intake 107, four-way road 704 is connected with oxygen outlet 108, the 6th path 706 is connected with Third Road auxiliary carrier gas steady flow system 103, the 7th path 707 is connected to first path 501 that band purges four-way valve A 5, the 9th path 709 is connected to the four tunnel auxiliary carrier gas steady flow system 104, the ten paths 710 and is connected with exhaust outlet B 110.

Above-mentioned four tunnel auxiliary carrier gas steady flow systems provide auxiliary carrier gas I～IV respectively.Vapour lock A and vapour lock B are used for stablizing air pressure and air-flow.

Embodiment 2

When detecting the middle impurity composition of high-purity non-corrosive gas (as nitrogen) except that oxygen, its step is as follows:

(1) sampling: as shown in Figure 1, switch band earlier and purge six-way valve 2 to state two, promptly first path 201 links to each other with the 6th path 206, and alternate path 202 links to each other with the 3rd path 203, and four-way road 204 links to each other with five-way road 205; The band of this moment purges four-way valve A 5 and switches to state one, and promptly first path 501 links to each other with four-way road 504, and the 3rd path 503 links to each other with alternate path 502; Band purges four-way valve B 6 and switches to state two, and promptly first path 601 links to each other with four-way road 604, and alternate path 602 links to each other with the 3rd path 603;

Connect sample gas inlet 105, sample loop 301 and sample gas outlet 106 this moment, sample gas flows into sample loop;

(2) sample introduction pre-separation: as shown in Figure 2, switch band and purge six-way valve 2 to state one, switch band and purge four-way valve A 5, connect first via auxiliary carrier gas steady flow system 101, sample loop A 301 and analysis chromatographic column A 401, analyze chromatographic column B 402 and analyze chromatographic column C403 to state one; Auxiliary carrier gas I is blown into the gas in the sample loop A and analyzes chromatographic column A;

In analyzing chromatographic column A, big molecular impurity component (molecular weight is greater than the component of spirit) is separated with small molecular weight impurity group (molecular weight is less than the component of spirit) with spirit, spirit and small molecular weight impurity component flow out earlier analyzes chromatographic column A, enters and analyzes chromatographic column B and stratographic analysis post C;

(3) separate big molecular impurity component: as shown in Figure 3, behind spirit and small molecular weight impurity component outflow analysis chromatographic column A, big molecular impurity component flows out to be analyzed before the chromatographic column A, switch band and purge four-way valve A to state two, and switching zero dead volume T-valve 8, connect first via auxiliary carrier gas steady flow system, analyze chromatographic column A, vapour lock A, vapour lock B and helium ionization detector, auxiliary carrier gas I will stay the big molecular impurity component of analyzing among the chromatographic column A and send into and helium ionization detector 901;

(4) separate small molecular weight impurity component and spirit: as shown in Figure 4, spirit separates in analyzing chromatographic column B with the small molecular weight impurity component, and the small molecular weight impurity component flows into analyzes chromatographic column C;

Before spirit flows out analysis chromatographic column B, as shown in Figure 4, switch band and purge four-way valve B 6 to state one, switch band and purge ten-way valve 7 to state two, and switching zero dead volume T-valve, connect Third Road auxiliary carrier gas steady flow system 103, analyze chromatographic column B 402 and exhaust outlet A 109, auxiliary carrier gas III flows into and analyzes chromatographic column B, will stay the spirit analyzed in the chromatographic column B from exhaust outlet A emptying;

Connect the second tunnel auxiliary carrier gas steady flow system 102 this moment, analyze chromatographic column C 403, vapour lock B 903 and helium ionization detector 901, auxiliary carrier gas II will stay the small molecular weight impurity component of analyzing among the chromatographic column C and send into helium ionization detector;

Can utilize heartcut by aforesaid operations, avoid the situation that the target impurity component can't be separated owing to covering of spirit.Aforesaid operations has only most of spirit emptying a small amount of spirit and target small molecular weight impurity component enter and analyzes chromatographic column C, thereby separate and check and analysis.

The effect of vapour lock A and vapour lock B is steady air flow and air pressure.

Embodiment 3

When the impurity composition in the detection high-purity oxygen, the steps include:

(1) sampling: as shown in Figure 5, switch band and purge ten-way valve 7, connect oxygen intake, sample loop B and oxygen outlet to state two;

(2) sample introduction oxygen separation: as shown in Figure 6, switch band and purge ten-way valve, switch band and purge four-way valve A 5, switch band and purge four-way valve B 6 to state two to state two to state one; Connect the four tunnel auxiliary carrier gas steady flow system 104, sample loop B 302, oxygen adsorption column 404 this moment, analyze chromatographic column E 405, analyze chromatographic column B 402 and analyze chromatographic column C 403; Auxiliary carrier gas IV is blown into oxygen adsorption column 404 with gas in the sample loop B, absorbs oxygen by the oxygen adsorption column;

The oxygen adsorption column can catalytic reaction and is absorbed oxygen, can avoid can not get detecting because some impurity composition (as argon gas and nitrogen etc.) is covered by high-concentration oxygen;

(3) separate big molecular impurity component: after the small molecular weight impurity component flows into analysis chromatographic column B 402 and analyzes chromatographic column C 403, big molecular impurity component flows out to be analyzed before the chromatographic column E 405, switch band and purge four-way valve A 5 and zero dead volume T-valve 8, as shown in Figure 7, connect Third Road auxiliary carrier gas steady flow system 103, oxygen adsorption column 404, analyze chromatographic column E 405, vapour lock A 902, vapour lock B 903 and helium ionization detector 901, send staying the big molecular impurity component of analyzing in the chromatographic column E into helium ionization detector;

(4) separate the small molecular weight impurity component: switch zero dead volume T-valve again, as shown in Figure 8, connect first via auxiliary carrier gas steady flow system 101, analyze chromatographic column B 402, analyze chromatographic column C 403, vapour lock B 903 and helium ionization detector 901, the small molecular weight impurity component after separating is sent into helium ionization detector.

Claims (5)

1. fexible unit that is used for analyzing high-purity non-corrosive gas impurity is characterized in that structure comprises:

Impurity composition separates gas circuit, helium ionization detector and oxygen pre-separation gas circuit;

Impurity composition separates gas circuit and comprises that first via auxiliary carrier gas steady flow system, the second tunnel auxiliary carrier gas steady flow system, sample gas inlet, sample gas outlet, exhaust outlet A, band purging six-way valve, sample loop A, band purge four-way valve A, band purges four-way valve B, analysis chromatographic column A, analyzes chromatographic column B, analyzes chromatographic column C and zero dead volume T-valve;

Wherein the inlet of the two ends of first via auxiliary carrier gas steady flow system, sample gas inlet, sample gas outlet and sample loop A and analysis chromatographic column A is connected respectively to band and purges six-way valve;

Inlet, the vapour lock A of the outlet of analysis chromatographic column A, analysis chromatographic column B are connected respectively to band and purge four-way valve A;

Vapour lock A links to each other with the helium ion detector successively with zero dead volume T-valve, vapour lock B;

Inlet, the second tunnel auxiliary carrier gas steady flow system and the exhaust outlet A of the outlet of analysis chromatographic column B, analysis chromatographic column C are connected respectively to and purge four-way valve B;

The outlet of analyzing chromatographic column C is connected with the other end of zero dead volume T-valve;

Oxygen pre-separation gas circuit comprises that band purges ten-way valve, Third Road auxiliary carrier gas steady flow system, the four tunnel auxiliary carrier gas steady flow system, sample loop B, oxygen adsorption column, analyzes chromatographic column E and exhaust outlet B;

The outlet of oxygen adsorption column with and the inlet of analyzing chromatographic column E link together, the inlet of oxygen adsorption column, analyze chromatographic column E outlet, Third Road auxiliary carrier gas steady flow system, the four tunnel auxiliary carrier gas steady flow system, exhaust outlet B, oxygen intake, oxygen outlet and sample loop B two ends and be connected respectively to band and purge ten-way valve; Band purges ten-way valve and is connected with band purging four-way valve A.

2. the described a kind of fexible unit that is used for analyzing high-purity non-corrosive gas impurity of claim 1, it is characterized in that, described band purges six-way valve and is provided with six passages, have two states: state one is: first path is connected with alternate path, the 3rd path is connected with the four-way road, and five-way Lu Yudi six paths connect; State two is: first path is connected with the 6th path, and alternate path is connected with the 3rd path, and four-way Lu Yudi five-way road connects;

Described first path connects the sample gas inlet, and alternate path connects the sample gas outlet, and the two ends of sample loop A are connected respectively to the 3rd path and the 6th path; The four-way road is connected to first via auxiliary carrier gas steady flow system, and the five-way road is connected to the inlet of analyzing chromatographic column A.

3. the described a kind of fexible unit that is used for analyzing high-purity non-corrosive gas impurity of claim 1 is characterized in that, described band purges four-way valve A and is provided with four passages, has two states; State one is: first path is connected with alternate path, and the 3rd path is connected with the four-way road; State two is: first path is connected with the four-way road, and alternate path is connected with the 3rd path;

Described first path is connected to band and purges ten-way valve, and alternate path connects vapour lock A, zero dead volume T-valve, vapour lock B and helium ion detector successively, and the 3rd path is connected to the outlet of analyzing chromatographic column A, and the four-way road is connected to the inlet of analyzing chromatographic column B

4. the described a kind of fexible unit that is used for analyzing high-purity non-corrosive gas impurity of claim 1 is characterized in that, described band purges four-way valve B and is provided with four passages, has two states; State one is: first path is connected with alternate path, and the 3rd path is connected with the four-way road; State two is: first path is connected with the four-way road, and alternate path is connected with the 3rd path;

Described first path is connected to the inlet of analyzing chromatographic column C, and alternate path connects the second tunnel auxiliary carrier gas steady flow system, and the 3rd path is connected to exhaust outlet A, and the four-way road is connected with the outlet of chromatographic column B.

5. the described a kind of fexible unit that is used for analyzing high-purity non-corrosive gas impurity of claim 1 is characterized in that, described band purges ten-way valve and is provided with ten passages, has two states; State one is: first path is connected with alternate path, and the 3rd path is connected with the four-way road, and five-way Lu Yudi six paths connect, and the 7th path is connected with the 8th path, and the 9th path is connected with the tenth path; State two is: first path is connected with the tenth path, and alternate path is connected with the 3rd path, and four-way Lu Yudi five-way road connects, and the 6th path is connected with the 7th path, and the 8th path is connected with the 9th path;

Described first path is connected with the 8th path successively with oxygen adsorption column, analysis chromatographic column E, the two ends of sample loop B are connected respectively to alternate path and five-way road, the 3rd path is connected with oxygen intake, the four-way road is connected with oxygen outlet, the 6th path is connected with Third Road auxiliary carrier gas steady flow system, the 7th path is connected to band and purges four-way valve A, and the 9th path is connected to the four tunnel auxiliary carrier gas steady flow system, and the tenth path is connected with exhaust outlet B.

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