Novel optical path system for water quality three-dimensional fluorescence monitoring system
A three-dimensional fluorescence and monitoring system technology, applied in the direction of fluorescence/phosphorescence, measuring devices, cleaning methods and appliances, etc., can solve problems such as difficult to achieve high-quality detection of fresh water resources, incomplete water quality analysis data, unable to meet the use requirements, etc., to achieve The effect of ingenious design, high degree of automation and high accuracy
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Embodiment 2
[0040] see figure 2 and 3 As shown, the sampling device also includes a driving part, a suction part, a sampling vessel, a filter screen and a valve body, and the suction part is installed in the sampling vessel to facilitate the suction of water samples, and the filter screen is installed at the feed end of the sampling vessel to facilitate Isolate the sundries during suction to ensure a smoother feeding end of the sampling dish. The valve body is installed at the output end of the sampling dish to facilitate the control of the discharge and closing of the sample. The driving part is a propeller, and four propellers are installed on the Around the device, it is convenient to control the angle and speed of the sampling device driving forward or backward, and then realize the sampling operation without dead ends in reservoirs, rivers, etc.
Embodiment 3
[0042] see figure 2 and 3 As shown, the three-dimensional fluorescence detection device and the cleaning mechanism are installed on the sampling device, and the detection end of the three-dimensional fluorescence detection device extends to the inside of the sampling dish, so as to facilitate the rapid detection of the sampling water quality. The output end of the cleaning mechanism is connected to the sampling dish. The input end is connected to facilitate the cleaning of the sampling vessel, to ensure that the water quality of a single sampling does not interfere with each other, and to provide a certain quality assurance for the water quality fixed-point analysis.
Embodiment 4
[0044] see figure 2 As shown, the specific process of the sample collection module is:
[0045] Step 1: Sample collection, the sampling device is driven by the driving part to the position to be collected, at this time, the suction part sucks the water sample at the position into the sampling dish, and the sundries are isolated by the filter when sucking;
[0046] Step 2: Sample detection, realize the detection of water samples through the three-dimensional fluorescence detection device and send the detection information to the result feedback unit;
[0047] Step 3: Clean the sampling dish, output clean water through the cleaning mechanism to wash the inner wall of the sampling dish, and then open the valve body to discharge the cleaned sewage;
[0048] Step 4: Multi-point sampling, repeat the above steps to realize the multi-point sampling detection operation.
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