CN205562243U - Dispersion liquid - liquid micro -extraction external member - Google Patents
Dispersion liquid - liquid micro -extraction external member Download PDFInfo
- Publication number
- CN205562243U CN205562243U CN201620323384.5U CN201620323384U CN205562243U CN 205562243 U CN205562243 U CN 205562243U CN 201620323384 U CN201620323384 U CN 201620323384U CN 205562243 U CN205562243 U CN 205562243U
- Authority
- CN
- China
- Prior art keywords
- extract
- extraction
- bottle
- extraction flask
- liquid
- 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.)
- Expired - Fee Related
Links
Landscapes
- Sampling And Sample Adjustment (AREA)
Abstract
The utility model relates to a dispersion liquid liquid micro -extraction external member, collect piece and the three part of injector bottle including extraction flask, extract, the bottleneck appearance of extraction flask bottom is elliptic cylindrical shape or cylindrical, has seted up toper collecting vat (6), the screw socket has been seted up at the top to be furnished with the sealed pad and the blind nut that match with the screw socket, be used for sealed top, the piece is collected to the extract for realize the collection of the extract that extracting solvent density ratio water is little, including hyaline tube (7) and the collection cover (9) that has handle (8), collect the maximum outer diameter and the extraction flask upper portion bottle internal diameter phase -match of cover (9), the injector bottle includes bottle (10), has placed conical duct (11) in it. The utility model has the advantages of application scope is wide, processing is simple, the operation is simple and direct, the good reproducibility, the rate of recovery is high, survey is more accurate and the automatic batch processing sample of easy realization.
Description
Technical field
This utility model relates to extraction equipment.
Background technology
The pollution of water body is on the rise by organic compound in recent years, and its level of pollution increasingly comes into one's own with health effect research.The U.S. in 1977
State Bureau of Environmental Protection (USEPA) is according to the toxicity of organic pollution, biodegradable probability and the factor such as probability occurred in water body, from 7
Ten thousand kinds of organic compound filter out the pollutant of 65 129 kinds of priority acccess control of class, wherein organic compound 114 kinds, accounts for the 88.4% of sum, bag
Include 21 kinds of insecticides, 26 kinds of halogenated aliphatic hydrocarbons, 8 kinds of Polychlorinated biphenyls, 11 kinds of phenol, 7 kinds of nitrous acid and other compound.These compounds itself
Having certain biological accumulation, some is own toxic, and some has three-induced effect.Surface water, subsoil water, Drinking Water, sanitary sewage, work
Tremendous influence is there is in the Organic Pollutants In Water residuals such as industry waste water, sea water to production and the life of the mankind.Long Term Contact or drink by mutagenesis,
The water that carcinogen is polluted, can make the sickness rate of cancer in the crowd of drinking increase.Therefore the study on monitoring one to dissimilar Organic Pollutants In Water
Straight attention.
In analyzing water body, organic pollution method is a lot.Traditional liquid-liquid extraction method is with low cost, applied widely, but need to use substantial amounts of organic reagent
Extracting sample, organic solvent generally has high volatility, high toxicity and combustibility, easily causes secondary environmental pollution and causes security incident;
Solid phase extraction purifies while water sample is enriched with, and eliminates matrix interference impact, improves the accuracy of analysis, and the method is easily achieved
Automatization, but operating technology difficulty is high, instrument and equipment somewhat expensive;Flow Injection on-line preconcentration, Solid-phase Microextraction, membrane extraction and solid-state
Extraction stirring rod technology have do not use or use less organic solvent, simple to operate, amount of samples is few, the detection limit advantage such as low.But above skill at present
The aspects such as art is in conceptual phase more, method stability there is also certain problem, is difficult to promote, need to study further.Liquid-liquid micro-extraction method is root
According to the liquid-liquid extraction method extracting a small amount of fluid sample with a small amount of organic solvent.The method overcome tradition liquid-liquid extraction sample and extractant consumption be big,
The defect that environmental pollution is big, has sample and extractant consumption quick, accuracy few, simple, convenient and highly sensitive, no cross contamination
And advantages of environment protection, the operation of its extracting and enriching has the good compatibility with subsequent detection method, and extraction phase can be used directly gas chromatogram, height
Effect liquid phase chromatogram, thin layer chromatography, gas chromatography-mass spectrum, spectrophotometric, flame atomic absorption spectrometry and Electrothermal atomic absorption spectrometry, to targeted
Compound is measured.It is applicable not only to the separation and concentration of trace organic substance, is also applied for the separation and concentration of trace inorganic metal ion, the most successfully
It is applied to the separation and concentration of trace components in various bad borders water sample (including high salinity water sample), various beverages, biological sample, coal and mineral samplers,
It it is a kind of rising eco-friendly separation and concentration technology.
Dispersion liquid-liquid micro-extraction technique (DLLME) be first be rapidly injected in the centrifuge tube filling sample solution in advance a certain amount of extractant and
The mixed liquor of dispersant, sample solution forms the emulsion system of a water/dispersant/extractant, organic extraction after vibration gently or supersound process
Contact surface between agent microballon and sample solution is relatively big, and determinand is extracted into rapidly in extractant microballon, and extraction equilibrium is quickly completed, more by centrifugation
Or other mode split-phases, direct injected or be analyzed after being dissolved in suitable solvent after taking out with microsyringe and measuring organic extractant volume.Should
Method collection separates and is enriched in one, it is to avoid the loaded down with trivial details operating process such as traditional liquid-liquid extraction separates, shifts, concentration, be one easy and simple to handle,
Quickly, low cost, bioaccumulation efficiency height and the sample pre-treatments new technique of environmental protection.
The dispersion liquid-liquid micro-extraction device of multi-form differs from one another at present.But these extraction external members are relative complex, with wanting that DLLME simplifies
Ask inconsistent.All kinds of dispersion liquid-liquid micro-extraction devices are faced with similar defect and deficiency:
(1) seeing in suitability angle, dispersion liquid-liquid micro-extraction device majority may be only available for the extraction that extractant density is bigger than water, and minority can be real
The extraction that existing extractant density is less than water, but extraction equipment is complicated, operation easier is big, fragile, and two kinds of extraction modes can not take into account, extract
Stability and poor repeatability.
(2) in terms of effect of extracting angle, dispersion liquid-liquid micro-extraction external member the most on the market, it is usually applicable only to manually shake extraction, it is impossible to realize
Automatization's batch processing sample.
(3) the emulsification problem solution angle easily produced from operating process, centrifuging is to eliminate the simple effective method of emulsifying, but right
It is positioned at the design of extraction flask bottom extraction flask (simultaneously also can be as centrifuge tube) in extract, has employing without special collecting pipe, be difficult to draw extraction
Liquid;Bottom is had to use opening to add the mode that rubber cushion seals, though the extract bottom easily gathering, but fluid seepage problem when being also susceptible to centrifugal.
Utility model content
The purpose of this utility model is the feature combining dispersion liquid-liquid micro-extraction, it is provided that one is applied widely, it is simple, simple to operation to process, repetition
Property good, the response rate is high, measure more accurately and easily be automated the dispersion liquid-liquid micro-extraction external member of batch processing sample.Technology of the present utility model
Scheme is as follows:
A kind of dispersion liquid-liquid micro-extraction external member, including extraction flask, extract collecting means and three parts of injector bottle, it is characterised in that
Bottleneck profile bottom described extraction flask is elliptical cylinder-shape or cylinder, offers cone-shaped collection groove (6);Top offers screw socket, and joins
There is the sealing gasket and blind nut mated with screw socket, be used for sealing top;
Described extract collecting means, for realizing the collection of the extractant density extract less than water, including transparent tube (7) with handle
(8) collecting hood (9), the maximum outside diameter of collecting hood (9) matches with extraction flask top bottle internal diameter, when collecting extract from extraction flask top
Portion stretches into after in extraction flask can be close to bottle inwall;One end of transparent tube (7) is fixed on handle (8);
Described injector bottle includes bottle (10), is within it placed with conical pipe (11), by sampling probe from the extraction of extraction flask bottom collection
Liquid or from extract collecting means transparent tube (7) collect extract collection after be placed in the conical pipe of injector bottle.
This utility model compared with prior art has the advantage that
(1) seeing in suitability angle, owing to bottom is provided with taper extract collecting tank, this device goes for the extraction that extractant density is bigger than water
Take the collection of liquid;And the design of extract collecting hood can realize the collection of the extractant density extract less than water, two kinds of extraction modes are taken into account,
Extraction stability and reproducible.
(2) in terms of effect of extracting angle, add the design of sealing gasket owing to extraction flask open top end have employed blind nut, be both possible to prevent extraction process to send out
Raw leakage, can be replaced by mechanical force again and manually shake extraction, be advantageously implemented automatization's batch processing sample.
(3) eliminate after emulsifying in centrifuging, extract is positioned to the design of extraction flask (simultaneously also can be as centrifuge tube) bottom extraction flask, if
In respect of special taper extract collecting tank, it is simple to make extract concentrate, easily draw extract;Outer wall uses circular-arc-shaped design simultaneously, is possible to prevent
Extraction flask is made to rupture owing to pressure is relatively big time centrifugal.
(4) this extraction external member structure is simple, be easy to processing, easily operated, sealing gasket and seal lid and select universal material and size.
(5) extract taken out can load in the sample injection bottle being built-in with conical pipe, replaces for the ease of realizing automatic sampler auto-programming sample introduction
Hand sampling, improves accuracy and the sample introduction efficiency of sample introduction.For micro-extraction device, extraction liquid measure is trace, if at the bottom of being split in bottle, then adding
Sampling greatly difficulty, automatic sampler absorption extract is easy in conical pipe design.
Accompanying drawing explanation
Fig. 1 is the structure chart of dispersion liquid-liquid micro-extraction bottle of the present utility model.
Fig. 2 is the extract collecting means structure chart that extract density is less than water sample.
Fig. 3 is extract sample injection bottle structure chart.
Label declaration in figure: 1 blind nut;2 sealing gaskets;3 polytetrafluorethylecoatings coatings liners;4 screw sockets;5 extraction flasks;6 cone-shaped collection grooves;
7 transparent glass tubes;8 handles;9 collecting hoods;10 automatic sampler bottles;11 conical pipes
Detailed description of the invention
With embodiment, this utility model is illustrated below in conjunction with the accompanying drawings.
See Fig. 1, Fig. 2 and Fig. 3, the dispersion liquid-liquid micro-extraction external member that this utility model provides, specifically include different size glass extraction flask (figure
1), the profile of bottom bottleneck is oval, its interior tapered, it is simple to the collection of extract.There is outside extraction flask open top screw socket 4, blind nut
Extract and sample are sealed by blind nut 1 by 1 with the sealing gasket 2 having polytetrafluorethylecoatings coatings 3.For the extract that extract density is less than water sample
Using extract collecting means (Fig. 2) to be collected, including transparent glass tube 7 with the collecting hood 9 of handle 8, collecting hood 9 uses polytetrafluoro
Ethylene material.The outer wall of the collecting hood 9 of extract collecting means can fit tightly by inwall open-topped with extraction flask, and handle facilitates extract collecting means
Collection operation, transparent glass tube 7 shows position and the extract volume of extract, it is simple to sampling probe extraction extract.Fig. 3 is internal placement glass
The auto injection bottle of glass conical pipe, it is simple to after the extract collected is injected conical pipe by sampling probe, suitable according to sample introduction with the automatic sampler of analytical tool
Prologue sample introduction is analyzed.
Concrete operation method is: a certain amount of sample and extract is injected in extraction flask 5, tightens the blind nut 1 of band sealing gasket 2, manual or loading
Automatically oscillation extraction on oscillation extraction device, is placed on mixed liquor in centrifuge centrifugal, makes extract separate with sample.Now, density is bigger than water
Extract (such as dichloromethane) can be gathered in cone-shaped collection 6 groove bottom extraction flask, use sampling probe extraction extract, be injected into band taper
Auto injection (also can directly extract be injected the direct hand sampling of injection port of analytical tool) in the auto injection bottle 10 of pipe;If extract
Density is less than water, and extract can be dispersed in the top of sample, adds a certain amount of blank water, makes liquid level close to extraction bottleneck, uses extract to collect
Part, is pressed into extract in transparent glass tube 7, with sampling probe, extract takes out sample introduction analysis.
Claims (1)
1. a dispersion liquid-liquid micro-extraction external member, including extraction flask, extract collecting means and three parts of injector bottle, it is characterised in that
Bottleneck profile bottom described extraction flask is elliptical cylinder-shape or cylinder, offers cone-shaped collection groove (6);Top offers screw socket, and joins
There is the sealing gasket and blind nut mated with screw socket, be used for sealing top;
Described extract collecting means, for realizing the collection of the extractant density extract less than water, including transparent tube (7) with handle
(8) collecting hood (9), the maximum outside diameter of collecting hood (9) matches with extraction flask top bottle internal diameter, when collecting extract from extraction flask top
Portion stretches into after in extraction flask can be close to bottle inwall;One end of transparent tube (7) is fixed on handle (8);
Described injector bottle includes bottle (10), is within it placed with conical pipe (11), by sampling probe from the extraction of extraction flask bottom collection
Liquid or from extract collecting means transparent tube (7) collect extract collection after be placed in the conical pipe of injector bottle.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620323384.5U CN205562243U (en) | 2016-04-15 | 2016-04-15 | Dispersion liquid - liquid micro -extraction external member |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620323384.5U CN205562243U (en) | 2016-04-15 | 2016-04-15 | Dispersion liquid - liquid micro -extraction external member |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205562243U true CN205562243U (en) | 2016-09-07 |
Family
ID=56808503
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620323384.5U Expired - Fee Related CN205562243U (en) | 2016-04-15 | 2016-04-15 | Dispersion liquid - liquid micro -extraction external member |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205562243U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105758688A (en) * | 2016-04-15 | 2016-07-13 | 天津市环境监测中心 | Dispersing liquid-liquid micro extraction kit |
-
2016
- 2016-04-15 CN CN201620323384.5U patent/CN205562243U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105758688A (en) * | 2016-04-15 | 2016-07-13 | 天津市环境监测中心 | Dispersing liquid-liquid micro extraction kit |
CN105758688B (en) * | 2016-04-15 | 2018-10-16 | 天津市生态环境监测中心 | A kind of dispersion liquid-liquid micro-extraction external member |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
de Castro et al. | Analytical supercritical fluid extraction | |
Ramos | Critical overview of selected contemporary sample preparation techniques | |
CN103234778B (en) | Device for enriching semi-volatile organic compounds in underground water | |
Sajid et al. | Stir-bar supported micro-solid-phase extraction for the determination of polychlorinated biphenyl congeners in serum samples | |
Rosende et al. | Recent trends in automatic dynamic leaching tests for assessing bioaccessible forms of trace elements in solid substrates | |
EP2485035A2 (en) | Vacuum assisted headspace microextraction sampling devices and methods | |
Chormey et al. | Principles and recent advancements in microextraction techniques | |
CN105044262A (en) | Water polychlorinated biphenyl dispersive solid-phase extraction gas chromatography detection method | |
Quintana et al. | Online coupling of bead injection lab-on-valve analysis to gas chromatography: application to the determination of trace levels of polychlorinated biphenyls in solid waste leachates | |
CN205562243U (en) | Dispersion liquid - liquid micro -extraction external member | |
CN111122233A (en) | Soil sampler for VOCs analysis | |
CN105758688B (en) | A kind of dispersion liquid-liquid micro-extraction external member | |
CN101776664A (en) | Method for testing melamine in raw milk and dairy products and preprocessing device | |
CN101732888A (en) | Method for extracting trace substances in filed and portable solid-phase extractor | |
CN212067818U (en) | Gas-assisted liquid-liquid micro-extraction device for pretreatment of water quality inspection | |
CN101017160A (en) | Pretreatment method for liquid-phase micro-extraction sample | |
CN201926625U (en) | Rapid detection case for detecting harmful substance in traditional Chinese medicine | |
CN202886151U (en) | Ambient air sampling bottle | |
CN211477688U (en) | Soil sampler for VOCs analysis | |
CN214408708U (en) | Portable aquatic phenolic compound device of qualificating fast | |
CN201653760U (en) | Seal pot | |
CN109342474A (en) | Solid phase extraction concentration device and with its associated with XRF | |
Frenzel | Highly sensitive semi-quantitative field test for the determination of chromium (VI) in aqueous samples | |
CN106706795A (en) | Magnetic-nano-composite-based dispersive solid-phase extraction-chromatographic detection method of malachite green (MG) and crystal violet (CV) in water sample | |
CN205127997U (en) | Dispersion liquid phase centrifuging tube for micro -extraction |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160907 Termination date: 20170415 |
|
CF01 | Termination of patent right due to non-payment of annual fee |