Gate dynamic underwater safety balance monitoring and early-warning equipment

Abstract

The invention discloses gate dynamic underwater safety balance monitoring and early-warning equipment. The gate dynamic underwater safety balance monitoring and early-warning equipment is arranged ina waterproof shell, a data collecting module of a monitoring unit adopts a dip angle sensor, and the dip angle sensor is provided with a switch alarming output unit. A ZigBee wireless transceiver module is connected with an automatic retractable buoy antenna. The monitoring unit is connected with the wireless transceiver module through a data analyzing and processing module. The data analyzing andprocessing module is connected with a valve opening and closing system. The valve opening and closing system comprises a valve rectification unit, a valve stopping unit and a valve early-warning unit. An all-in-one machine is connected with the wireless transceiver module through a GPS communication module. The wireless transceiver module is connected with a PC and a mobile terminal through a wireless router. The gate dynamic underwater safety balance monitoring and early-warning equipment is convenient to install and high in waterproofness, and not limited by the working environment, not only can a traditional working gate be monitored and early-warned, but also overhaul gate underwater operation can be early-warned and monitored, real-time operation dynamic states of working gate and overhaul gate operation can be grasped in time, and the gate dynamic underwater safety balance monitoring and early-warning equipment has very high practicability.

Description

technical field [0001] The invention relates to the technical field of water conservancy monitoring, in particular to a dynamic underwater safety balance monitoring and early warning device for gates. Background technique [0002] Sluices are important hydraulic structures for flood control. The construction of sluices plays an important role in flood storage, flood diversion and drainage, and water-saving irrigation in major water system basins across the country. However, in the construction of the sluice, due to various reasons of the region and flood control requirements, most of the sluice machinery and gates are installed in the open air, and the degree of automation is relatively backward. There are very few monitoring data during the operation of the gates, and the basic operation methods are mostly based on experience. [0003] In the actual operation and operation process of the sluice, due to the large span of the sluice, it is difficult to grasp and estimate the ...

AI Technical Summary

Problems solved by technology

However, in the construction of the sluice, due to various reasons of the region and flood control requirements, most of the sluice machinery and gates are installed in the open air, and the degree of automation is relatively backward. There are very few monitoring data during the operation of the gates, and the basic operation methods are mostly operated by experience.

[0003] In the actual operation and operation process of the sluice, due to the large span of the sluice, it is difficult to grasp and estimate the dynamic balance of the sluice operation with the naked eye. The loss of balance in the middle causes the gat

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