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Deep and far sea resistance-type precipitation measuring device and method based on satellite communication positioning

A satellite communication and measurement device technology, applied in measurement devices, rainfall/precipitation meters, meteorology, etc., can solve the problems of blurred lines, expensive equipment, erroneous measurement data, etc. Highly adaptable and wide-ranging effects

Active Publication Date: 2021-06-25
NAT CENT OF OCEAN STANDARDS & METROLOGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The main body of the tipping bucket precipitation measuring instrument is composed of a water receiver, an upper tipping bucket, a collection funnel, a measuring tipping bucket, and a reed switch. This kind of instrument has many parts, a complex structure, and expensive equipment, and is prone to component blockage and errors. Problems such as growth and data loss
The main body of the siphon type precipitation measuring instrument is composed of a water receiver, a float chamber, a self-recording pen, a siphon tube and a casing, etc. This kind of instrument has disadvantages such as a delay in starting the siphon, fuzzy lines drawn by the self-recording pen, and broken lines.
In addition, both tipping bucket and siphon precipitation measuring instruments require the measuring table to be stationary, otherwise it is easy to cause the tipping bucket to turn over by mistake or random siphon drainage during the measurement work, resulting in wrong measurement data. At the same time, the components of these two types of precipitation measuring instruments Corrosion resistance is poor, not suitable for strong corrosion environments such as marine salt spray

Method used

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  • Deep and far sea resistance-type precipitation measuring device and method based on satellite communication positioning
  • Deep and far sea resistance-type precipitation measuring device and method based on satellite communication positioning
  • Deep and far sea resistance-type precipitation measuring device and method based on satellite communication positioning

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Embodiment

[0071] see figure 1 and 2, the embodiment of the present invention provides a kind of deep sea resistive precipitation measurement device based on satellite communication positioning, utilizes satellite positioning technology and satellite communication technology, adopts resistive precipitation measurement technology, completes the worldwide deep sea rainfall and rain intensity Parameter measurement work. Specific implementation methods such as figure 1 and figure 2 shown.

[0072] ①The floating carrier on the sea surface can float on the sea surface, and can drift around the world under the action of sea wind or ocean current. The main body includes a stainless steel skeleton 9 and four spherical waterproof floats 3, the four spherical waterproof floats 3 are fixed on the stainless steel skeleton 9, and arranged on the periphery of the stainless steel skeleton 9, the spherical waterproof float 3 is made of polyethylene material, environmentally friendly and durable cor...

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Abstract

The invention discloses a deep and far sea resistance-type precipitation measuring device and method based on satellite communication positioning. The measuring device comprises a sea surface floating carrier, a global positioning module, a satellite communication module, a resistance-type precipitation measuring module, a working anchor lamp, a lithium battery pack and a working switch, wherein the resistance-type precipitation measuring module comprises a stainless steel cylindrical shell, an air temperature measuring probe, and a stainless steel filter screen, a water bearing device, a collecting funnel, an electric heating module, a resistance water level probe, a closed water storage container, a drainage pipe, a drainage pump, a posture correction module, a data operation transmission module, a control module and a water temperature measuring probe which are positioned in the stainless steel cylindrical shell. The measuring method comprises the steps of measuring device positioning, rainfall collection, attitude correction, rainfall measurement, rainfall intensity measurement, precipitation and latitude and longitude data transmission, and data receiving, storage and display. The measuring device can be distributed in any sea area globally, can measure all-weather and all-day rainfall and rainfall intensity data of deep and far sea in a global range in real time, and has the characteristics of high sea condition adaptability, wide measuring range, simple and convenient process and the like.

Description

technical field [0001] The invention belongs to the technical field of marine meteorological precipitation measurement, and in particular relates to a deep sea resistance precipitation measurement device and method based on satellite communication positioning. Background technique [0002] Ocean precipitation data is one of the important elements of ocean hydrological observation. Ocean precipitation includes two parameters: rainfall and rain intensity. Rainfall refers to the liquid and solid (after melting) precipitation falling from the sky to the sea surface, without evaporation, infiltration and loss, the depth accumulated on the horizontal surface, the unit of rainfall is mm, and the rainfall per unit time is called rain intensity , the unit is mm / h or mm / min. [0003] The precise measurement and forecasting of precipitation (rainfall and rain intensity) in deep and open seas is of great significance to ocean shipping, scientific research, disaster prevention and mitig...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01W1/14G01D21/02
CPCG01W1/14G01D21/02Y02A90/10
Inventor 贾伟广江帆马志刚秦鑫培朱丽萍于建清
Owner NAT CENT OF OCEAN STANDARDS & METROLOGY
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