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Portable optical mechanical system of underwater in-situ luminoscope

A portable, in-situ technology, applied in the field of measurement systems, can solve the problems of complex structure, single measurement parameters, and the measurement window is easily attached by microorganisms in water, etc., and achieves the effect of light weight and easy portability.

Inactive Publication Date: 2011-01-26
ANHUI INST OF OPTICS & FINE MECHANICS - CHINESE ACAD OF SCI
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Problems solved by technology

[0003] The purpose of the present invention is to provide a portable underwater in-situ fluorescence instrument optomechanical system to solve the existing problems in the prior art that the structure is complex, continuous measurement cannot be realized, the measurement parameters are single, and the measurement window is susceptible to microorganisms in water.

Method used

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  • Portable optical mechanical system of underwater in-situ luminoscope
  • Portable optical mechanical system of underwater in-situ luminoscope
  • Portable optical mechanical system of underwater in-situ luminoscope

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Embodiment Construction

[0020] Such as figure 1 shown. The present invention is composed of a black nylon shell 1 and a monitoring cylinder 2, the monitoring cylinder 2 is connected with the black nylon shell 1 through eight support columns 3, and a measuring water channel is formed in the gap between the black nylon shell 1 and the monitoring cylinder 2, namely Optical darkroom.

[0021] Such as figure 2 , image 3 shown. Monitoring cylinder 2 includes waterproof cable 4, waterproof connector 5, end cap 6, first black nylon cylinder 7-1, second black nylon cylinder 7-2, half-circle seat 8, end cap 9, special waterproof nut 10, window cleaning brush 11 and other components. The waterproof connector 5 is an eight-pin connector with waterproof function, which is composed of a plug 5-1 and a socket 5-2, which is convenient for quick plugging and has good sealing performance. The 5-1 end of the plug is sealed and connected with the waterproof eight-core cable, and is used for data transmission wit...

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Abstract

The invention discloses a portable optical mechanical system of an underwater in-situ luminoscope, which comprises black nylon cylinders. A hollow semicircular base is arranged among the black nylon cylinders to form a monitoring cylinder, and end covers are arranged in cylinder openings at two ends of the monitoring cylinder which is sleeved with a black nylon shell. The invention realizes fluorometric management of water samples and real-time monitoring of the influence of measurement light in the fluorometric management. The portable optical mechanical system is integrated with temperature and pressure sensors which can be used for monitoring water temperature and pressure. A window cleaning brush is used in the portable optical machine system for cleaning windows of the sensors which are used underwater for a long term. The portable optical mechanical system can be used for quickly detecting water samples in wild fields by environment monitoring departments, has the advantages of light weight, easy carrying and the like, and also can be installed on a buoy or an automatic monitoring station for long-term continuous monitoring of water bodies of a fixed monitoring point.

Description

technical field [0001] The invention relates to the field of measurement systems, in particular to a measurement system for water sample measurement, in particular to a portable underwater in-situ fluorescence instrument optical-mechanical system. Background technique [0002] In vivo fluorescence method is a method for real-time, rapid and in-situ detection of water quality without laboratory chemical treatment. In order to prevent water and rust, the body of the existing living fluorescent underwater optical mechanical measuring device is mostly made of stainless steel shell, which has a complex structure and high cost. As a result, the equipment is too large and heavy, and the portability is extremely poor, which cannot meet the requirements of modern environmental monitoring for water quality. Requirements for rapid in situ monitoring. These instruments often have a single function. While measuring fluorescence, they lack the measurement of water body turbidity, water t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N21/64G01N21/15
Inventor 阮俊殷高方张玉钧王志刚肖雪王欢博刘文清
Owner ANHUI INST OF OPTICS & FINE MECHANICS - CHINESE ACAD OF SCI
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