CN207992252U - A kind of automatic sampling apparatus - Google Patents

Abstract

The utility model is related to a kind of automatic sampling apparatus, it is characterised in that：It includes automatic alternately sampling device and first, second liang of capturing device；The automatic alternately purge gass import of sampling device, dry gas import and carrier gas inlet are connected with source purge gas, dry air source and carrier gas source respectively, two pairs of outlets of the automatic alternately sampling device are connected with first, second capturing device respectively, and the sample detection mouth of the automatic alternately sampling device is connected with detection device；Automatic alternately sampling device and first, second liang of capturing device are controlled by system, control circuit.The utility model is simple in structure, easy to operate, can be widely applied to the analyzing processing field of sample.

Description

A kind of automatic sampling apparatus

Technical field

The utility model is related to sample analysis process fields, more particularly to a kind of automatic sampling apparatus.

Background technology

Mercury pollution causes high risks as a kind of global contaminant to ecological environment and human health, at For one of currently the most important Global Environmental Problems.The toxicity of mercury not fully depend on total amount, and with its existing forms and ring Border behavior is closely related.In mercury cycle, mercury is existing for variform, substantially to there is 3 kinds of forms:Element mercury, inorganic mercury And organic mercury.Methyl mercury is the maximum organic mercury form of toxicity, has been cited as in international chemical Material Safety program and most endangers for 6 kinds One of the substance of danger.Due to the significant damage of methyl mercury, in recent years, methyl mercury in related water quality, soil, air and aquatic products Analysis be increasingly becoming research hotspot, the means for detecting methyl mercury are also growing.

There are many method for measuring methyl mercury at present, and gas chromatography can measure alkyl mercury, and appearance is very fast, but ECD detectors It is not strong to detect mercury specificity, impurity interference is big.High performance liquid chromatography is also used for the analysis of mercury, and coexisting ion interference is less, but The disadvantage that there is also detector specificities is not strong, the analysis linearity is bad.Compared with preceding two quasi-instruments technology, atomic emission spectrum Instrument sensitivity higher, by spectral line and matrix interference it is lower compared with smaller, detection limit, therefore with this method detection methyl mercury the most at It is ripe reliable.Currently, the mercury morphological analysis method for being widely recognized as and being applied in the world --- U.S. EPA 1630 is exactly foundation Detector detection.

The Chinese patent of Patent No. 2015101264393 discloses a kind of " methyl mercury thermal desorption sampling device ", including Walk flowmeter, heating coil, heating power supply, heater switch, heating power supply voltage regulator.The sampling device can only be to methyl mercury The tenax adsorption tubes of enriched completion carry out Thermal desorption sampling step, can not carry out tenax adsorption tube methyl mercuries enrichment step Suddenly, the not full-automatic methyl sclera remodeling sampling device in complete meaning；And channel is unique, can only sequence sample introduction, sample treatment Efficiency is low.Overseas market has a full-automatic methyl mercury analyzer, but when in face of domestic market, due to technical barrier and costliness Instrument expense, greatly hinder demand of the domestic consumer to methyl sclera remodeling.

Invention content

In view of the above-mentioned problems, the purpose of this utility model be to provide one kind effectively shorten sample purge trapping, Thermal desorption, into The sample time improves the automatic sampling apparatus of sample determination efficiency.

To achieve the above object, the utility model takes following technical scheme：A kind of automatic sampling apparatus, feature exist In：It includes automatic alternately sampling device and first, second liang of capturing device；The purge gass of the automatic alternately sampling device Import, dry gas import and carrier gas inlet are connected with source purge gas, dry air source and carrier gas source respectively, the automatic alternating into Two pairs of outlets of sampling device are connected with first, second capturing device respectively, the sample of the automatic alternately sampling device Detection mouth is connected with detection device；The automatic alternately sampling device and first, second liang of capturing device control electricity by system Road controls.

The automatic alternately sampling device includes the first~the 4th solenoid valve and the first~the 4th triple valve；Described first Solenoid valve and the COM port of second solenoid valve are separately connected described as first pair of outlet of the automatic alternately sampling device The both ends of second capturing device；The COM port of the third solenoid valve and the 4th solenoid valve is as the automatic alternately sample introduction dress The second pair of outlet set is separately connected the both ends of first capturing device；The normally open end of first solenoid valve and described The normal-closed end of four solenoid valves is connected by first triple valve, another interface of first triple valve as carrier gas inlet with Carrier gas source is connected；The normally open end of the normal-closed end of first solenoid valve and the 4th solenoid valve is connected by second triple valve It connects, another interface of second triple valve is as the automatic drying gas import for replacing sampling device；Second electromagnetism The normally open end of valve is connected with the normal-closed end of the third solenoid valve by the third triple valve, the third triple valve it is another Sample detection mouth of the interface as the automatic alternately sampling device；The normal-closed end of the second solenoid valve and the third electromagnetism The normally open end of valve is connected by the 4th triple valve, and another interface of the 4th triple valve is as the automatic alternately sample introduction The purge gass import of device；Each solenoid valve is connected with system, control circuit, is controlled by the system, control circuit.

The first, second capturing device structure is identical, first, second capturing device include a trap tube, with The trap tube connected heating module and refrigerating module；The heating module and refrigerating module with system, control circuit phase Even, it is controlled by the system, control circuit.

The heating module uses fan coolling module using winding resistive heating module, the refrigerating module.

The automatic alternately purge gass import of sampling device and dry gas import respectively by purge gass connection component and Dry gas connection component is connected with purge gas source and dry gas source, and the carrier gas inlet of the automatic alternately sampling device passes through Carrier gas connection component is connected with gas of carrier gas source.

The purge gass connection component includes purge stream gauge, purge gass flow control valve and sample introduction needle；It is described to blow Scavenging flowmeter bottom side is connected with purge gas source outlet, and the pipe between the purge stream gauge and purge gas source The purge gass flow control valve is arranged in road, and purge stream gauge top is connected with sample introduction needle side interface, Interface is connected with the automatic purge gass import for replacing sampling device above the sample introduction needle, and syringe needle is inserted below the sample introduction needle Enter into sample bottle.

The dry gas connection component includes dry gas stream gauge, dry gas stream amount control valve and valve, described dry The outlet of pathogenic dryness flowmeter bottom and dry gas source is connected, and dry gas stream gauge top automatic replaces sampling device with described Carrier gas inlet be connected, and the dry gas stream amount control is set on the pipeline between the dry gas stream gauge and dry gas source Valve processed, on the pipeline between the dry gas stream gauge and the automatic drying gas import for replacing sampling device described in setting Valve.

The carrier gas connection component includes carrier gas flux meter and carrier gas flux control valve, carrier gas flux meter bottom with The outlet of gas of carrier gas source is connected, and top is connected with the automatic carrier gas inlet for replacing sampling device, the carrier gas flux control Valve processed is arranged on the pipeline between the carrier gas flux meter and gas of carrier gas source.

The automatic alternately sampling device and first, second capturing device, purge gas source, dry gas source, load 1/8 Teflon piping connection is all made of between gas gas source.

The utility model has the following advantages due to taking above technical scheme：1, replace automatically in the utility model Setting is switched over by the port to solenoid valve there are two injection port in sampling device, can be formed two it is non-interfering into Sample channel can be respectively used to purge and trap or sample introduction, effectively shorten sample effectively shorten sample purge trapping, Thermal desorption, Sample injection time meets the needs of client measures batch samples.2, the utility model is used due to replacing sampling device automatically Conventional solenoid valve and triple valve is attached, and the heating module and refrigerating module that capturing device uses are conventional equipment, are had Effect reduces operating cost, while breaking the dual barrier of external import instrument price and technical monopoly.Thus, the utility model It can be widely applied to the analysis field of sample.

Description of the drawings

Fig. 1 is the utility model structure diagram；

Fig. 2 is that the utility model replaces sampling device structural schematic diagram automatically；

Fig. 3 is that the utility model instrument ready state and the first capturing device enter purge and trap status diagram；

Fig. 4 is that the first capturing device of the utility model enters drying regime schematic diagram；

Fig. 5 is that the first capturing device of the utility model enters analysis state schematic diagram.

Specific implementation mode

The utility model is described in detail with reference to the accompanying drawings and examples.It should be appreciated, however, that attached drawing carries For only for more fully understanding the utility model, they should not be interpreted as limitations of the present invention.In the utility model Description in, it is to be understood that term " first ", " second " etc. are only used for the purpose of description, and should not be understood as referring to Show or imply relative importance.

As shown in Figure 1, a kind of automatic sampling apparatus provided by the utility model comprising automatic alternately sampling device 1 with And first, second liang of capturing device 2,3.The automatic alternately purge gass import of sampling device 1, dry gas import and carrier gas inlet (b mouths, d mouthfuls and a mouthfuls) i.e. in figure is connected with source purge gas, dry air source and carrier gas source respectively, replaces sampling device 1 automatically Two pairs of outlets are connected with the first, second capturing device 2,3 respectively, and the sample detection mouth of automatic alternately sampling device 1 is (i.e. in figure C mouthfuls) it is connected with detection device, detection device includes gas phase separation chromatography column 4 (GC), thermal cracking pipe 5 and detector 6.Wherein, certainly Dynamic alternately sampling device 1 and first, second liang of capturing device 2,3 are controlled by system, control circuit.

As shown in Fig. 2, alternately sampling device 1 includes the first~the 4th solenoid valve V1~V4 and the first~the 4th 3 automatically The first couple of the COM port of port valve T1~T4, the first solenoid valve V1 and second solenoid valve V2 as automatic alternately sampling device 1 Outlet is separately connected the both ends of the second capturing device 3；The COM port of third solenoid valve V3 and the 4th solenoid valve V4 are as automatic Alternately second pair of outlet of sampling device 1 is separately connected the both ends of the first capturing device 2；The normally open end of first solenoid valve V1 (ends NO) is connected with the normal-closed end (ends NC) of the 4th solenoid valve V4 by the first triple valve T1, and first the another of triple valve T1 connects Mouth is connected as carrier gas inlet (i.e. a mouthfuls) with carrier gas source；The normal-closed end (ends NC) of first solenoid valve V1 and the 4th solenoid valve V4's Normally open end (ends NO) is by the second triple valve T2 connections, and another interface of the second triple valve T2 is as automatic alternately sampling device 1 Drying gas import (i.e. d mouthfuls)；The normally open end (ends NO) of second solenoid valve V2 and the normal-closed end (ends NC) of third solenoid valve V3 are logical The T3 connections of third triple valve are crossed, another interface of third triple valve T3 is as the automatic sample detection mouth for replacing sampling device 1 (i.e. c mouthfuls)；The normal-closed end (ends NC) of second solenoid valve V2 passes through the 4th triple valve with the normally open end (ends NO) of third solenoid valve V3 T4 is connected, and another interface of the 4th triple valve T4 is as purge gass import (i.e. b mouthfuls).Each solenoid valve V1~V4 is controlled with system Circuit is connected, and is controlled by system, control circuit.

First, second capturing device 2,3 structures are identical, and the utility model is introduced by taking the first capturing device 2 as an example, should Capturing device includes trap tube 21 (31), the heating module being connected with trap tube 21 (31) 22 (32) and refrigerating module 22 (33). Wherein, heating module 22 (32) and refrigerating module 23 (33) are connected with system, control circuit, are controlled by system, control circuit.

Automatically alternately the purge gass import of sampling device 1 and dry gas import by purge gass connection component 7 and are done respectively Pathogenic dryness connection component 8 is connected with purge gas source and dry gas source.Wherein, purge gass connection component 7 includes purge gass flow Meter 71, purge gass flow control valve 72 and sample introduction needle 73.71 bottom side of purge stream gauge exports phase with purge gas source Even, and on the pipeline between purge stream gauge 71 and purge gas source purge gass flow control valve 72, purge stream are set The 71 top other side of gauge is connected with 73 side interface of sample introduction needle, 73 top interface of sample introduction needle with replace sampling device 1 automatically (b mouthfuls) of purge gass import is connected, and 73 lower section syringe needle of sample introduction needle is inserted into sample bottle.Dry gas connection component 8 includes dry gas Flowmeter 81, dry gas stream amount control valve 82 and valve 83,81 bottom of dry gas stream gauge export phase with dry gas source Even, 81 top of dry gas stream gauge is connected with the automatic carrier gas inlet for replacing sampling device 1, and dry gas stream gauge 81 and drying Dry gas stream amount control valve 82 is set on the pipeline between gas source, and dry gas stream gauge replaces the dry of sampling device with automatic Valve 83 is set on the pipeline between pathogenic dryness import (d mouthfuls).

It is automatic to be alternately connected by carrier gas connection component 9 between the carrier gas inlet and gas of carrier gas source of sampling device 1, the load Gas connection component 9 includes carrier gas flux meter 91 and carrier gas flux control valve 92,91 bottom of carrier gas flux meter and gas of carrier gas source Outlet is connected, and top is connected with the automatic carrier gas inlet (a mouthfuls) for replacing sampling device 1, and carrier gas flux control valve 92 is arranged On pipeline between carrier gas flux meter 91 and gas of carrier gas source.

As a preferred embodiment, automatic alternately sampling device 1 and the first, second capturing device 2,3, purge gas 1/8 Teflon piping connection is all made of between source, dry gas source, gas of carrier gas source.

As a preferred embodiment, the heating module in two capturing devices uses winding resistive heating module.

As a preferred embodiment, the refrigerating module in two capturing devices uses fan coolling module.

As shown in Fig. 3~Fig. 5, it is based on above-mentioned automatic sampling apparatus, the utility model also provides a kind of automatic sampling method, Include the following steps：

1) instrument ready state：Purge gass flow control valve 72 and dry gas stream amount control valve 82 are closed, and is opened Carrier gas flux control valve 92, while the trap tube in two capturing devices 2,3 does not work, carrier gas by replacing sampling device automatically 1 carrier gas inlet enters detection device after the trap tube of the second capturing device 3.

At this point, the tenax trap tubes in two capturing devices are in off position, purge gass flow control valve 72, Dry gas stream amount control valve 82 is closed, and carrier gas flux control valve 92 is opened, and gas of carrier gas enters solenoid valve by carrier gas inlet The ends NO of V1, and flowed out by the ends COM of solenoid valve V1, by entering electricity after the tenax trap tubes 31 in the second capturing device 3 The ends COM of magnet valve V2, and flowed out by the ends NO of solenoid valve V2, sample port c enters gas phase separation chromatography column 4, thermal cracking after testing Pipe 5 and detector 6.

2) the purge and trap state of the first capturing device 2：It keeps carrier gas flux control valve 92 constant, opens purge stream Control valve door 72, while the trap tube 21 in the first capturing device 2 works, to the purge gass by replacing sampling device 1 automatically The sample that import enters is trapped.

As shown in figure 3, the utility model is introduced so that the first capturing device 2 initially enters working condition as an example.Purging When trapping, carrier gas is run still according to instrument ready state；Purge gass flow control valve 72 is opened, and purge gass pass through sample introduction needle After sample bottle, automatic alternately sampling device 1 is entered by purge gass import, purge gas enters the ends NO of solenoid valve V3, and by After the ends the COM outflow of solenoid valve V3, enter solenoid valve after the tenax trap tubes 21 in the first capturing device 2 trap sample The ends COM of V4 are expelled to valve 83 through dry gas import, are discharged into discarded collection device after the normally open end outflow of solenoid valve V4.

3) drying regime of the first capturing device 2：After the completion of purge and trap, keep carrier gas flux control valve 92 constant, Purge gass flow control valve 72 is closed, and opens dry gas stream amount control valve 82, dry gas by replacing sampling device 1 automatically Drying gas import enter the sample that is trapped to the first capturing device 2 and be dried.

As shown in figure 4, when dry, carrier gas is run still according to instrument ready state；Dry gas stream amount control valve 82 is beaten It opens, dry gas enters automatic alternately sampling device 1 by drying gas import, and dry gas is flowed into from the normally open end of solenoid valve V4, warp The ends COM of solenoid valve V4 enter the first capturing device 2, and enter the COM of solenoid valve V3 after being flowed out by 2 upper end of the first capturing device End is flowed out by the normally open end of solenoid valve V3 be expelled to the sample introduction needle 73 in purge gass connection component 7 through purge gass import later, by The middle part of sample introduction needle 73 is discharged.

4) analysis state of the first capturing device 2：After the completion of drying, auto-changeover control is filled by system, control circuit Each solenoid valve in setting carries out Vavle switching, simultaneously closes off purge gass flow control valve 72 and dry gas stream amount control valve 82, Carrier gas flux control valve 92 is opened, carrier gas drives the sample after the parsing of the first capturing device 2 by replacing sampling device automatically Sample detection mouth be detected into detection device.

As shown in figure 5, when the first capturing device parses, 4 solenoid valve V1~V4 progress valves are controlled by circuit system and are cut It changes so that the ends NO of each solenoid valve are closed, and the ends NC are opened, and purge gass flow control valve 72 and dry gas stream amount control are simultaneously closed off Valve 82 processed opens carrier gas flux control valve 92.Specific work process is：Gas of carrier gas is flowed by the ends NC of solenoid valve V4, And flowed out by the ends COM of solenoid valve V4, entered by the lower end of the tenax trap tubes in the first capturing device, while heating module Work, the gas after parsing enter the ends COM of solenoid valve V3, and are flowed out by the ends NC of solenoid valve V3, through sample detection mouth c into Enter gas phase separation chromatography column, thermal cracking pipe and detector.

5) the purge and trap state of the second capturing device 3：In first capturing device, 2 resolving, purge gass flow is opened Control valve 72, closes dry gas stream amount control valve 82, and purge gass are entered by the purge gass import for replacing sampling device 1 automatically Trap tube 31 in second capturing device 3 carries out purge and trap.

In 2 resolving of the first capturing device, the tenax trap tubes 31 in the second capturing device 3 may be at ready State or purge and trap or drying regime (binary channels replaces sample introduction effect).When in purge and trap state, purge gass flow Control valve 72 is opened, and purge gass enter automatic alternately sampling device 1 through purge gass import, into the ends NC of solenoid valve V2, and It is flowed out by the ends COM of solenoid valve V2, the ends COM of solenoid valve V1 is entered after the tenax trap tubes 31 in the second capturing device 3, And after being flowed out by the ends NC of solenoid valve V1, it is expelled to valve 83 through dry gas import, is then discharged into discarded collection device.

6) drying regime of the second capturing device 3：After the completion of second capturing device, 3 purge and trap, purge gass flow is closed Control valve 72, opens dry gas stream amount control valve 82, and dry gas is entered by the drying gas import for replacing sampling device automatically Second capturing device is dried.

When in drying regime, dry gas stream amount control valve 82 is opened, and dry gas enters automatic hand over by drying gas import For sampling device 1, the normal-closed end that dry gas enters solenoid valve V1 flows into, and the ends COM through solenoid valve V1 enter the second trapping and fill 3 are set, and enters the ends COM of solenoid valve V2 after being flowed out by 3 upper end of the second capturing device, is flowed out later by the normal-closed end of solenoid valve V2 It is expelled to the sample introduction needle 73 in purge gass connection component 7 through purge gass import, is discharged by the middle part of sample introduction needle 73.

7) analysis state of the second capturing device 3：After the completion of the drying of second capturing device 3, system, control circuit carries out valve Switching so that carrier gas enters the second capturing device 3 by carrier gas inlet, and the sample in the second capturing device 3 is driven to enter follow-up inspection Survey device.

8) step 2)~7 are repeated) so that sample alternately enter first, second liang of capturing device 2,3 carry out purge and trap and Parsing, and then enter detection device.Reach binary channels alternating sample introduction effect, the purge and trap stand-by period is greatly saved, carries High instrument working efficiency.

The various embodiments described above are merely to illustrate the utility model, wherein the structure of each component, connection type and manufacture craft Etc. may be changed, every equivalents carried out on the basis of technical solutions of the utility model and improvement, It should not exclude except the scope of protection of the utility model.

Claims (9)

1. a kind of automatic sampling apparatus, it is characterised in that：It includes automatic alternately sampling device and first, second liang of trapping dress It sets；The automatic alternately purge gass import of sampling device, dry gas import and carrier gas inlet respectively with source purge gas, dry gas Source is connected with carrier gas source, it is described it is automatic alternately sampling device two pairs of outlets respectively with the first, second capturing device phase Even, the sample detection mouth of the automatic alternately sampling device is connected with detection device；It is described it is automatic alternately sampling device and first, Second liang of capturing device is controlled by system, control circuit.

2. a kind of automatic sampling apparatus as described in claim 1, it is characterised in that：The automatic alternately sampling device includes the One~the 4th solenoid valve and the first~the 4th triple valve；

The first pair of outlet of first solenoid valve and the COM port of second solenoid valve as the automatic alternately sampling device It is separately connected the both ends of second capturing device；

Second pair outlet of the COM port of the third solenoid valve and the 4th solenoid valve as the automatic alternately sampling device It is separately connected the both ends of first capturing device；

The normally open end of first solenoid valve is connected with the normal-closed end of the 4th solenoid valve by first triple valve, described Another interface of first triple valve is connected as carrier gas inlet with carrier gas source；

The normal-closed end of first solenoid valve is connected with the normally open end of the 4th solenoid valve by second triple valve, described Drying gas import of another interface of second triple valve as the automatic alternately sampling device；

The normally open end of the second solenoid valve is connected with the normal-closed end of the third solenoid valve by the third triple valve, described Sample detection mouth of another interface of third triple valve as the automatic alternately sampling device；

The normal-closed end of the second solenoid valve is connected with the normally open end of the third solenoid valve by the 4th triple valve, described Purge gass import of another interface of 4th triple valve as the automatic alternately sampling device；

Each solenoid valve is connected with system, control circuit, is controlled by the system, control circuit.

3. a kind of automatic sampling apparatus as described in claim 1, it is characterised in that：The first, second capturing device structure Identical, first, second capturing device includes a trap tube, the heating module being connected with the trap tube and cooling mould Block；The heating module and refrigerating module are connected with system, control circuit, are controlled by the system, control circuit.

4. a kind of automatic sampling apparatus as claimed in claim 3, it is characterised in that：The heating module is using winding resistance-type Heating module, the refrigerating module use fan coolling module.

5. a kind of automatic sampling apparatus as described in claim 1, it is characterised in that：The purging of the automatic alternately sampling device Gas import and dry gas import pass through purge gass connection component and dry gas connection component and purge gas source and dry gas respectively Body source is connected, and the carrier gas inlet of the automatic alternately sampling device is connected by carrier gas connection component with gas of carrier gas source.

6. a kind of automatic sampling apparatus as claimed in claim 5, it is characterised in that：The purge gass connection component includes purging Air-flow gauge, purge gass flow control valve and sample introduction needle；The purge stream gauge bottom side is exported with purge gas source It is connected, and the purge gass flow control valve, institute is set on the pipeline between the purge stream gauge and purge gas source Purge stream gauge top is stated with sample introduction needle side interface to be connected, above the sample introduction needle interface with it is described it is automatic replace into The purge gass import of sampling device is connected, and syringe needle is inserted into sample bottle below the sample introduction needle.

7. a kind of automatic sampling apparatus as claimed in claim 5, it is characterised in that：The dry gas connection component includes drying Air-flow gauge, dry gas stream amount control valve and valve, dry gas stream gauge bottom are connected with dry gas source outlet, Dry gas stream gauge top and the automatic carrier gas inlet for replacing sampling device are connected, and the dry gas stream gauge with The dry gas stream amount control valve, the dry gas stream gauge and the automatic friendship are set on the pipeline between dry gas source For the valve is arranged on the pipeline between the drying gas import of sampling device.

8. a kind of automatic sampling apparatus as claimed in claim 5, it is characterised in that：The carrier gas connection component includes carrier gas stream Gauge and carrier gas flux control valve, the outlet of carrier gas flux meter bottom and gas of carrier gas source are connected, top with it is described automatically Alternately the carrier gas inlet of sampling device is connected, and the carrier gas flux control valve is arranged in the carrier gas flux meter and carrier gas gas On pipeline between body source.

9. a kind of automatic sampling apparatus as described in claim 1, it is characterised in that：It is described it is automatic alternately sampling device with it is described 1/8 Teflon pipeline company is all made of between first, second capturing device, purge gas source, dry gas source, gas of carrier gas source It connects.