IOT-based hydrological measuring and forecasting system device

A system device, the technology of the Internet of Things, which is applied in the field of the hydrological forecasting system device based on the Internet of Things, can solve the problems of high cost, high cost of remote control station, unable to supply power resources in time, etc., and achieve the effect of timely response and timely detection

Inactive Publication Date: 2019-09-17
SUIHUA UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In the past, telemetry stations were set up around the river for monitoring. Because this kind of remote station is separated from the river, it cannot go deep into the middle of the river to detect the quality of the river. How t

Method used

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  • IOT-based hydrological measuring and forecasting system device
  • IOT-based hydrological measuring and forecasting system device
  • IOT-based hydrological measuring and forecasting system device

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Embodiment 1

[0027]Please refer to the accompanying drawings, the present invention provides a technical solution: a hydrological survey and report system device based on the Internet of Things, including a hydrological survey and report system main body, a guardrail 1, a warehouse body 2, a cable 3, a generator set 4, a gearbox 5, and a storage battery 6 , a transmission structure 7, a floating plate 8 and a transmission rod 9, the main body 1 of the hydrological forecasting system, the storage battery 6, the gearbox 5 and the generator set 4 are all sealed and arranged in the bin body 2, and the bin body 2 is pressed down into the water for suspension It is pointed out here that the storage battery 6 can supply power for the main body 1 of the hydrological forecasting system to achieve the purpose of the main body 1 of the hydrological forecasting system to continuously monitor specific pollutants in the water. The generator set 4 can charge the battery. Of course, the generator set 4 gene...

Embodiment 2

[0037] The structure of this embodiment is basically the same as that of Embodiment 1. The difference is that the straight rod 16 is a flexible shaft. 16 can transmit the rising power to straight rod 2 18, and when descending, spring 46 pulls rack plate 20 downwards.

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Abstract

The invention discloses an IOT-based hydrological measuring and forecasting system device. The IOT-based hydrological measuring and forecasting system device comprises a hydrological measuring and forecasting system body, a guard bar, a cabin body, a cable rope, a generator set, a gearbox, a storage battery, a transmission structure, a floating plate and a transmission rod; the hydrological measuring and forecasting system body, the a storage battery, the gearbox and the generator set are arranged in the cabin body in a sealed manner; furthermore, the cabin body is downwardly pressed into water to suspend; one end of the cable rope is fixedly connected with the bottom surface of the cabin body; the other end of the cable rope is fixedly connected with the bottom of a riverway; therefore, the position of the cabin body is fixed; a containing groove is formed on the top of the cabin body; the transmission structure is arranged in the containing groove; furthermore, the transmission structure and the gearbox are in transmission connection; one end of the transmission rod is in transmission connection with the transmission structure, passes through the upper hole of the containing groove, and is fixedly connected with the floating plate floating on the water surface; the floating plate performs up and down motion along with wave; and thus, the transmission rod is driven to slide from top to bottom. The IOT-based hydrological measuring and forecasting system device in the invention generates power by utilizing lumpy power; and thus, the IOT-based hydrological measuring and forecasting system device is relatively clean and small in occupation space.

Description

technical field [0001] The invention relates to the technical field of hydrological surveying and reporting devices, in particular to a hydrological surveying and reporting system device based on the Internet of Things. Background technique [0002] The automatic system of hydrological data acquisition and transmission is composed of various sensors, communication equipment and computers that collect, transmit and process real-time hydrological data. It is divided into three parts: telemetry station, information transmission channel and central control station (abbreviated as central station). Mainly used for flood control and water conservancy dispatching. It only takes a few minutes to complete data collection and processing within a small watershed, and provide timely information on the rainfall and water conditions of key river sections and reservoirs. [0003] In the past, telemetry stations were set up around the river for monitoring. Because this kind of remote stat...

Claims

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Application Information

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IPC IPC(8): G01N33/18F03B13/18
CPCF03B13/1845G01N33/18Y02E10/30
Inventor 杨倩苏醒
Owner SUIHUA UNIV
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