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Taitong Technology (Guangzhou) Co., Ltd
HS-36T fully automatic headspace sampler
NegotiableUpdate on 01/13
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Overview
The HS-36T fully automatic headspace sampler is a convenient and fast sample pretreatment method in gas chromatography. Its principle is to place the sample to be tested in a closed container, heat and raise the temperature to evaporate volatile components from the sample matrix, and reach equilibrium in the gas-liquid (or gas-solid) phase. The top gas is directly extracted for chromatographic analysis to test the composition and content of volatile components in the sample. The use of headspace injection technology can eliminate lengthy and tedious sample pretreatment processes, avoid interference from organic solvents in analysis, and reduce contamination of chromatographic columns and injection ports.
Product Details
Fully automatic headspace samplerTechnical Specifications:
| model | HS-36P | HS-36T | HS-54P | HS-54T | HS-54RD |
| Sampling method | Pressurized sampling | Time sampling | Pressurized sampling | Time sampling | Dynamic enrichment sampling |
| Sample grade | 36 people | 36 people | 54 positions | 54 positions | 54 positions |
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Sample bottle specifications (Other specifications can be customized) |
20ml | 20ml | 20ml | 20ml | 20ml |
| Instrument size |
640*600*655mm | 640*600*655mm | 640*600*655mm | 640*600*655mm | 640*600*655mm |
| Instrument weight | 50KG | 50KG | 65KG | 65KG | 65KG |
| power supply | 220VAC 50Hz | 220VAC 50Hz | 220VAC 50Hz | 220VAC 50Hz | 220VAC 50Hz |
| power | <800VA | <800VA | <800VA | <800VA | <800VA |
HS-36T fully automatic headspace samplerPrinciple:
The headspace sampler is a convenient and fast sample pretreatment method in gas chromatography. Its principle is to place the sample to be tested in a closed container, heat and raise the temperature to evaporate volatile components from the sample matrix, and reach equilibrium in the gas-liquid (or gas-solid) phase. The top gas is directly extracted for chromatographic analysis to test the composition and content of volatile components in the sample. The use of headspace injection technology can eliminate lengthy and tedious sample pretreatment processes, avoid interference from organic solvents in analysis, and reduce contamination of chromatographic columns and injection ports. This instrument can be connected to various models of gas chromatographs both domestically and internationally.
Can be applied in various fields
8 major product advantages to solve your experimental pain points
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1 Multi dimensional three-dimensional bottle grasping arm module
Multi dimensional bottle grasping arm module, stable and reliable operation |
2 independent valve box insulation system
Independent valve box insulation system effectively prevents sample condensation |
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3 Sample Heating Furnace Vibration Function
The oscillation function of the sample heating furnace is beneficial for accelerating sample balance, Improve experimental efficiency, with infinitely adjustable oscillation frequency
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4 samples with consistent heating time
10 sample heating positions to achieve multiple sample stacking injection. Combined with chromatographic analysis time, automatic sample stacking injection is achieved to ensure consistent heating time for each sample.
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5. Low detection limit and low residue of the system
Excellent structural design, fully inert gas path, Heating and insulation throughout the entire area to ensure low detection limit and low residue of the system
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6 XYZ robotic arm sample grabbing structure
XYZ robotic arm sample grabbing structure, stable and reliable structure, will not get stuck during bottle entry and exit
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7 Humanized Operations
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8 Realize data traceability
The function of online recording of testing parameters for each sample, Effectively protect samples and achieve data traceability.
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Applicable Standards | APPLICABLE STANDARDS
HJ 1054-2019 Determination of Total Content of Dithiocarbamate (Salt) Pesticides in Soil and Sediments by Headspace/Gas Chromatography Method
HJ 1289-2023 Determination of 15 Ketones and 6 Ether Compounds in Soil and Sediments by Headspace/Gas Chromatography Mass Spectrometry
HJ 679-2013 Soil and Sediments Determination of Aldehydes, Acrylonitrile, Acetonitrile Headspace/Gas Chromatography Method
HJ 642-2013 Determination of volatile organic compounds in soil and sediment by headspace/gas chromatography-mass spectrometry
HJ 736-2015 Determination of volatile halogenated hydrocarbons in soil and sediment by headspace/gas chromatography-mass spectrometry
QB/T 4849-2015 Determination of Volatile Alcohols in Wine - Static Headspace/Gas Chromatography Method
QB/T 4850-2015 Determination of volatile esters in wine - Static headspace/gas chromatography method
QB/T 4709-2014 Determination of Volatile Esters in Huangjiu Static Headspace/Gas Chromatography Method
SN/T 3385-2012 Food contact materials - Polymer materials - Polyethylene terephthalate (PET) resin and its products - Determination of acetaldehyde - Headspace gas chromatography method
SN/T 4148-2015 Determination of Volatile Organic Compounds (VOCs) in Packaging Materials - Static Headspace/Gas Chromatography Method
GB/T 30932-2014 Determination of Residues of Prohibited Substances in Cosmetics - Headspace Gas Chromatography Mass Spectrometry Method
HJ 1042-2019 Determination of Trimethylamine in Environmental Air and Waste Gas Solution Absorption Headspace/Gas Chromatography Method
HJ 643-2013 Determination of Volatile Organic Compounds in Solid Waste by Headspace/Gas Chromatography Mass Spectrometry
HJ 976-2018 Determination of Benzene Compounds in Solid Waste by Headspace/Gas Chromatography Mass Spectrometry
HJ 975-2018 Determination of Benzene Compounds in Solid Waste by Headspace Gas Chromatography
HJ 959-2018 Determination of Ethyl Lead in Water Quality by Headspace/Gas Chromatography Mass Spectrometry
HJ 620-2011 Determination of volatile halogenated hydrocarbons in water quality - Headspace gas chromatography method
HJ 1067-2019 Determination of Benzene Derivatives in Water Quality by Headspace/Gas Chromatography Method
HJ 1072-2019 Determination of Pyridine in Water Quality by Headspace/Chromatography, etc
GB/T 5750-2023 Standard Test Method for Drinking Water
HS-36T fully automatic headspace samplerProduct Features | Product Features
Standard configuration includes 36/54 10ml and 20ml headspace bottle sample grades, meeting a large number of analysis requirements with XYZ automatic sampling system. The sampling arm moves smoothly and accurately with low noise.
Integrated with 54 automatic samplers and 10 headspace bottle heaters, ensuring consistent equilibration time for each sample and achieving stacked injection, maximizing efficiency and improving sample analysis speed.
The 10 head space bottle heater comes standard with oscillation function, and the oscillation time is set in the method file to accelerate the sample to reach vapor-liquid and gas-solid phase equilibrium, improve the detection ability of volatile substances in the sample, and achieve good reproducibility.
The sample flow path sampling inert low residue pipeline has a high-temperature gas blowback function to ensure low detection and less pollution of the system. It can store 20 method sequence files, and can be directly accessed and used each time.
Equipped with a standard high-definition 7-inch LCD display screen, the graphical menu is easy to operate, easy to learn and use, and one click startup.
The online recording function of each sample testing parameter can record the actual analysis process parameters of each sample tube, making it convenient for users to understand the analysis process of the sample and better control the optimization and traceability of experimental conditions.
Automatic detection of pipeline tightness before optional sample testing. In case of leakage, the headspace bottle will not be injected to ensure that the sample is not lost.
All stroke controls use constant torque servo motors, which automatically stop running and report errors when the resistance is too high.
A high-temperature valve box with independent temperature control ensures that the sample does not remain.
Adopting high-performance low-voltage DC external control circuits, such as heating systems and motor control systems.
When selecting headspace injection, monitor the gas phase/gas quality readiness status to avoid continuous injection due to chromatographic failures and loss of sample analysis data.
They are all using Taitong (some companies)
Resolve your backup advantages
Provide technical support for installation, debugging, and training
Taitong technical engineers can provide on-site technical guidance and communication. After on-site communication, installation, debugging, and on-site acceptance testing can be carried out within 2 hours. Installation, debugging and acceptance completed, on-site
Provide a solution. Training on usage and operation, after passing the acceptance inspection and being put into operation, regularly organize relevant activities
Personnel undergo training.
Ensure scientific management of delivery time and traceability of production progress
Quality control
Incoming inspection and control, each finished product is tested and inspected to be qualified before leaving the factory
Layer by layer inspection, the finished product must pass 52 tests and pass the inspection before leaving the factory
Factory live shot
Legitimate manufacturers provide greater assurance
CNC machining center
High quality supervision, product development and upgrading capabilities, and customizable activation devices with different functions
Service Process
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