CN205785375U - Water conservancy irrigation automatic monitoring system - Google Patents

Abstract

The utility model discloses a kind of water conservancy irrigation automatic monitoring system, including automatic monitoring cabinet, flow-meter probe and photovoltaic power generation apparatus；Described flow-meter probe is located at outside automatic monitoring cabinet, and is connected with automatic monitoring cabinet, for measuring the water yield of water conservancy irrigation open channel and transferring data to automatically monitor switch board；Described automatic monitoring cabinet is connected with external server communication, is used for obtaining relevant water yield data and transferring data to external server；Described photovoltaic power generation apparatus is located at the outside of automatic monitoring cabinet, and is connected with automatic monitoring cabinet, for powering for automatic monitoring cabinet.This utility model can obtain the water flow of open channel of region, monitoring point and the situation of rainfall, is conducive to the water resource situation of irrigated area is carried out Accurate Analysis.

Description

Water conservancy irrigation automatic monitoring system

Technical field

This utility model belongs to water conservancy irrigation technical field, particularly relates to water conservancy irrigation automatic monitoring system.

Background technology

Current water conservancy irrigation is usually based on Artificial Control, utilizes farming experience to do some and simply observes, and uses Open management, the most accurately fully understands the water resource environment situation of irrigated area, causes water resource to use improper, water The phenomenon such as the wasting of resources and arid is more and more obvious；Water conservancy administration department of being simultaneously correlated with cannot be irrigated use accurately and effectively Water information, adds the decision-making difficulty of able to resisting flood and drought.For most irrigated areas, based on geographical environment and energy resource supply Factor, also cannot dispose corresponding monitoring device.

Utility model content

In order to solve the problem that prior art exists, this utility model provides a kind of water conservancy irrigation automatic monitoring system, The water flow of open channel of region, monitoring point and the situation of rainfall can be obtained, be conducive to the water resource feelings to irrigated area Condition carries out Accurate Analysis.

The technical solution adopted in the utility model is as follows:

A kind of water conservancy irrigation automatic monitoring system, including automatic monitoring cabinet, flow-meter probe and photovoltaic power generation apparatus； Described flow-meter probe is located at outside automatic monitoring cabinet, and is connected with automatic monitoring cabinet, is used for measuring water conservancy irrigation The water yield of open channel also transfers data to automatically monitor switch board；Described automatic monitoring cabinet is with external server communication even Connect, be used for obtaining relevant water yield data and transferring data to external server；Described photovoltaic power generation apparatus is located at monitoring automatically The outside of switch board, and be connected with automatic monitoring cabinet, for powering for automatic monitoring cabinet.

In this utility model, the flow of the water resource of irrigation open can be monitored by flow-meter probe in real time, and transmit Related data is to automatic monitoring cabinet, and then automatic monitoring cabinet transmits data to outside correspondence by wireless network Server.It addition, in this utility model, photovoltaic power generation apparatus is used to provide independent electric energy for system.

Further, it is provided with power control module, data acquisition transport module, effusion meter in described automatic monitoring cabinet Gauge outfit and accumulator；Described flowmeter meter is connected with flow-meter probe；Described data acquisition transport module and flowmeter meter Connect, and for being connected with external server communication；Described power control module is connected to photovoltaic power generation apparatus, effusion meter respectively Gauge outfit, accumulator and data acquisition transport module.

Further, the water quality monitoring probe being connected with data acquisition transport module is also included.

In this utility model, obtain data in particular by flowmeter meter from flow-meter probe, be transmitted further to data acquisition Collection transport module, then data acquisition transport module transmits data to external server.This utility model is not sent out only with photovoltaic Denso is set to the electric energy that system provides independent, and uses large-capacity battery storing electricity, it is ensured that system is under conditions of without sunlight Still normal work at least 30 days.And power control module is used for controlling electricity being flowmeter meter and data acquisition transport module etc. Electric energy is provided.

Further, described flow-meter probe is probe of ultrasonic flowmeter.

Further, described probe of ultrasonic flowmeter includes the unlimited gain active second-order bandpass filter of multichannel negative feedback Circuit and horn-reflector.

In this utility model, flow-meter probe uses the logical filter of unlimited gain multichannel negative feedback active second order band of independent research Ripple device circuit, and the horn-reflector of Specialty Design, within effectively field angle can being reduced to 15 degree, special window compares The design of device more can be effectively improved certainty of measurement by within the cycle time of detection echo to 1/4 cycle, can supervise accurately and effectively Flow control amount.

Further, also include that pluviometer, described pluviometer are located at outside automatic monitoring cabinet, and and automatic monitoring The data acquisition transport module of cabinet processed connects.

In this utility model, system is additionally provided with the pluviometer for monitoring rainfall, and it is connected with data acquisition transport module, The rainfall data of monitoring gained is transferred to the server of outside.

Further, described rainfall is calculated as tipping-bucket rain-gauge, and rainfall can be converted to the physics that can carry out measuring by it Amount signal, carries out data remote transmission by switching signal.

Further, described pluviometer is installed on the top of automatic monitoring cabinet.

Further, described automatic monitoring cabinet is fixedly mounted by pole type structure.This kind of structure floor space pole Little.

Further, described flow-meter probe is installed on the top of water conservancy irrigation open channel.

Further, described photovoltaic power generation apparatus is solar panel.Preferably, solar panel can use monocrystalline Silicon solar battery assembly.

Compared with prior art, this utility model has the advantages that

1, have employed probe of ultrasonic flowmeter and tipping-bucket rain-gauge, and data acquisition transport module gathers phase from them Close data message, and send the water resource information of irrigated area to external server, it is possible to know irrigated area, place, monitoring point The situation of distribution of water resources, is conducive to the water resource utilization power of irrigated area is carried out Accurate Analysis.

2, the part of appliance that the automatic monitoring cabinet used relates to is long for service life, and in system, power-on time is long；

3, the occupation area of equipment that system uses is little.

Accompanying drawing explanation

Fig. 1: structural representation of the present utility model；

Detailed description of the invention

With embodiment, this utility model is described in further detail below in conjunction with the accompanying drawings.

Embodiment:

Such as Fig. 1, a kind of water conservancy irrigation automatic monitoring system, including automatic monitoring cabinet, flow-meter probe, photovoltaic generation Device and pluviometer；Described flow-meter probe is installed on the top of water conservancy irrigation open channel, and is connected with automatic monitoring cabinet, uses In measuring the water yield of water conservancy irrigation open channel and transferring data to automatically monitor switch board；Described automatic monitoring cabinet is with outside Server communication connects, and is used for obtaining relevant water yield data and transferring data to external server；Described photovoltaic power generation apparatus It is located at the outside of automatic monitoring cabinet, and is connected with automatic monitoring cabinet, for powering for automatic monitoring cabinet；Described Pluviometer is installed on the top of automatic monitoring cabinet.

Power control module, data acquisition transport module, flowmeter meter and storage it is provided with in described automatic monitoring cabinet Battery；Described flowmeter meter is connected with flow-meter probe；Described data acquisition transport module is connected with flowmeter meter, and uses In being connected with external server communication；Described power control module is connected to photovoltaic power generation apparatus, flowmeter meter, electric power storage respectively Pond and data acquisition transport module；Described pluviometer is connected with the data acquisition transport module of automatic monitoring cabinet.

Described flow-meter probe is probe of ultrasonic flowmeter, and described probe of ultrasonic flowmeter includes unlimited gain multichannel Negative feedback active second-order bandpass filter circuit and horn-reflector.

Described rainfall is calculated as tipping-bucket rain-gauge.

Described photovoltaic power generation apparatus is solar panel.

Described automatic monitoring cabinet is fixedly mounted by pole type structure.

The present embodiment also includes the water quality monitoring probe being connected with data acquisition transport module.This water quality monitoring probe is permissible Oil etc. in monitoring temperature, SS, SO, PH, electrical conductivity, chlorophyll, blue-green alge, COD, ammonia nitrogen, water.

In the present embodiment, ultrasonic flowmeter can obtain the water resource liquid level of water conservancy irrigation open channel accurately and rapidly, And then calculating flow rate information, rainfall information collected the most exactly by tipping-bucket rain-gauge, and, also by data acquisition Collection transport module collection and the water resource information of transmission irrigated area.Therefore, it is possible to know irrigated area, place, monitoring point water money The situation of source distribution, is conducive to the water resource utilization power of irrigated area is carried out Accurate Analysis.

For a person skilled in the art, can technical scheme as described above and design, make other each Plant corresponding change and deformation, and all these changes and deforms the guarantor that all should belong to this utility model claim Within the scope of protecting.

Claims (10)

1. a water conservancy irrigation automatic monitoring system, it is characterised in that include automatic monitoring cabinet, flow-meter probe and photovoltaic TRT；Described flow-meter probe is located at outside automatic monitoring cabinet, and is connected with automatic monitoring cabinet, is used for measuring The water yield of water conservancy irrigation open channel also transfers data to automatically monitor switch board；Described automatic monitoring cabinet and external server Communication connects, and is used for obtaining relevant water yield data and transferring data to external server；Described photovoltaic power generation apparatus is located at certainly The outside of dynamic Monitoring and Controlling cabinet, and be connected with automatic monitoring cabinet, for powering for automatic monitoring cabinet.

Water conservancy irrigation automatic monitoring system the most according to claim 1, it is characterised in that in described automatic monitoring cabinet It is provided with power control module, data acquisition transport module, flowmeter meter and accumulator；Described flowmeter meter is visited with effusion meter Head connects；Described data acquisition transport module is connected with flowmeter meter, and for being connected with external server communication；Described confession Electric control module is connected to photovoltaic power generation apparatus, flowmeter meter, accumulator and data acquisition transport module respectively.

Water conservancy irrigation automatic monitoring system the most according to claim 1 and 2, it is characterised in that described flow-meter probe is Probe of ultrasonic flowmeter.

Water conservancy irrigation automatic monitoring system the most according to claim 2, it is characterised in that also include pluviometer, described rain Gauge is located at outside automatic monitoring cabinet, and is connected with the data acquisition transport module of automatic monitoring cabinet.

Water conservancy irrigation automatic monitoring system the most according to claim 4, it is characterised in that described rainfall is calculated as tipping bucket type rain Gauge.

6. according to the water conservancy irrigation automatic monitoring system described in claim 4 or 5, it is characterised in that described pluviometer is installed on The top of automatic monitoring cabinet.

Water conservancy irrigation automatic monitoring system the most according to claim 2, it is characterised in that also include transmitting with data acquisition The water quality monitoring probe that module connects.

Water conservancy irrigation automatic monitoring system the most according to claim 1, it is characterised in that described automatic monitoring cabinet leads to Cross the fixed installation of pole type structure.

Water conservancy irrigation automatic monitoring system the most according to claim 1, it is characterised in that described flow-meter probe is installed on The top of water conservancy irrigation open channel.

Water conservancy irrigation automatic monitoring system the most according to claim 1 and 2, it is characterised in that described photovoltaic power generation apparatus For solar panel.