Introduction: The RSD200 sample divider is used to divide a whole sample into 6, 8, and 10 evenly small samples. Each sample has the same physical and chemical properties and can represent the properties of the overall sample. The sample divider is currently a more accurate sample divider on the market. Application areas: engineering/electronics, building materials, agriculture, pharmaceuticals, chemical/synthetic materials, geology/metallurgy, glass/ceramics, biology, food working principle: The sample to be processed enters the sampling funnel of the autosampler and falls into the conical rotating tube. The rotating tube rotates at a constant speed. The sample moves to the channel under the action of centrifugal force and is collected in a container outside each channel. The physical properties of the samples in the container are all the same. Features: 1. High sampling accuracy 2. The parameters can be set digitally in advance 3. No maintenance required 4. Easy to collect samples and easy to clean 5. There are many options for the volume of the sample bottle 6. Can store 9 groups of parameters Technical parameter: Injection size: ≤10mm Speed: 80-120 rpm Time range: 00:01~99:59 (hour/minute) Number of sub-samples: with 8, 10 or 30 sample outlets Sample bottle volume: 10/25/50/100/250/500ml Rated power: 40 watts Rated voltage: 220 volts, 50 Hz Instrument size (horizontal * vertical * height): 460*456*850 mm Packing size (horizontal * vertical * height): 590*590*630 mm Instrument weight: 30 kg
Introduction: The RSD200 sample divider is used to divide a whole sample into 6, 8, and 10 evenly small samples. Each sample has the same physical and chemical properties and can represent the properties of the overall sample. The sample divider is currently a more accurate sample divider on the market. Application areas: engineering/electronics, building materials, agriculture, pharmaceuticals, chemical/synthetic materials, geology/metallurgy, glass/ceramics, biology, food working principle: The sample to be processed enters the sampling funnel of the autosampler and falls into the conical rotating tube. The rotating tube rotates at a constant speed. The sample moves to the channel under the action of centrifugal force and is collected in a container outside each channel. The physical properties of the samples in the container are all the same.
