CN204327194U - A kind of hydrology real-time monitoring system - Google Patents

Abstract

The utility model discloses a kind of hydrology real-time monitoring system, comprise water tank, Monitor Sub-Station of Less, substation power, server and dispatching host machine, in water tank, suction pump is installed, suction pump is connected with water pipe, the other end of water pipe is connected with U-shaped pipe, the other end of U-shaped pipe is connected with open channel, the other end of open channel is communicated with to realize water circulation with the top of water tank, the shape of cross section of open channel is for falling equilateral triangle, water pipe is provided with pipe pressure sensor, the middle part of U-shaped pipe is provided with pipeline flowmeter, open channel is provided with open-channel meter, pipe pressure sensor, pipeline flowmeter is all connected with Monitor Sub-Station of Less by data wire with open-channel meter, substation power is connected with Monitor Sub-Station of Less, Monitor Sub-Station of Less is connected with server, dispatching host machine is connected with server.The utility model structure is simple, reasonable in design and use easy to operate, and convenient looking into from a large amount of information is ask ﹑ and browsed, and processing procedure is time saving and energy saving, reaches the requirement preventing and treating water damage.

Description

A kind of hydrology real-time monitoring system

Technical field

The utility model relates to a kind of monitoring system, especially relates to a kind of hydrology real-time monitoring system.

Background technology

Hydrology real-time monitoring system is a kind of real time monitoring that water damage prevents and treats in security system, utilize hydrology real-time monitoring system, the Real-Time Monitoring of hydraulic pressure, water level overlength distance can be carried out to hydrological observation wells, its monitored data can reflect the hydraulic pressure of the different geologic horizon of current mine, water level and dynamic change situation in time, for safety in production and water prevention work provide foundation accurately and reliably.

Before modern hydrologic monitoring mode occurs, traditional hydrologic monitoring mode has been used decades by people.Traditional mode also rests on the stage that Ren work Ji Lu ﹑ manual Cha Xun ﹑ paper preservation etc. falls behind, the manual typing that generally will need very complicated for certain hydrological observation point information of adding.When inquiring about information in a certain respect, then will look into inquiry ﹑ and browse from a large amount of information, when processing procedure is taken, ﹑ effort, does not reach the requirement preventing and treating water damage.

Utility model content

The purpose of this utility model is to overcome above-mentioned deficiency of the prior art, there is provided a kind of hydrology real-time monitoring system, its structure is simple, reasonable in design and use easy to operate, convenient from a large amount of information Cha Xun ﹑ browse, processing procedure is time saving and energy saving, reaches the requirement preventing and treating water damage.

For achieving the above object, the technical solution adopted in the utility model is: a kind of hydrology real-time monitoring system, it is characterized in that: comprise water tank, Monitor Sub-Station of Less, substation power, server and dispatching host machine, in described water tank, suction pump is installed, described suction pump is connected with water pipe, the other end of described water pipe is connected with U-shaped pipe, the other end of described U-shaped pipe is connected with open channel, the other end of described open channel is communicated with to realize water circulation with the top of water tank, the shape of cross section of described open channel is for falling equilateral triangle, described water pipe is provided with the pipe pressure sensor for detecting water pipe internal water pressure, the middle part of described U-shaped pipe is provided with the pipeline flowmeter for measuring U-shaped in-pipe flow amount, described open channel is provided with the open-channel meter for measuring discharge in open channel, described pipe pressure sensor, pipeline flowmeter and open-channel meter to be all connected with Monitor Sub-Station of Less by data wire and the data detected to be passed for Monitor Sub-Station of Less, described substation power is connected with Monitor Sub-Station of Less and for powering to Monitor Sub-Station of Less, described Monitor Sub-Station of Less is connected with server and replaces to server for data being passed, described dispatching host machine be connected with server and from server data dispatching.

Above-mentioned a kind of hydrology real-time monitoring system, is characterized in that: described pipeline flow counts magnetic vortex flow meter, ultrasonic flowmeter or electromagnetic flowmeter.

Above-mentioned a kind of hydrology real-time monitoring system, is characterized in that: described substation power is intrinsic safety type power supply.

Above-mentioned a kind of hydrology real-time monitoring system, is characterized in that: the shape of described water pipe is L shape.

The utility model compared with prior art has the following advantages:

1, the utility model structure is simple, reasonable in design and use easy to operate.

2, the convenient inquiry ﹑ that looks into from a large amount of information of the utility model browses, and processing procedure is time saving and energy saving, reaches the requirement preventing and treating water damage.

3, the utility model is easily manufactured, manufactures use cost low, is convenient to promote the use of.

Below by drawings and Examples, the utility model is described in further detail.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Description of reference numerals:

1-water tank; 2-suction pump; 3-water pipe;

4-pipe pressure sensor; 5-U-shaped pipe; 6-pipeline flowmeter;

7-open channel; 8-open-channel meter; 9-data wire;

10-Monitor Sub-Station of Less; 11-substation power; 12-server;

13-dispatching host machine.

Detailed description of the invention

As shown in Figure 1, the utility model comprises water tank 1, Monitor Sub-Station of Less 10, substation power 11, server 12 and dispatching host machine 13, in described water tank 1, suction pump 2 is installed, described suction pump 2 is connected with water pipe 3, the other end of described water pipe 3 is connected with U-shaped pipe 5, the other end of described U-shaped pipe 5 is connected with open channel 7, the other end of described open channel 7 is communicated with to realize water circulation with the top of water tank 1, the shape of cross section of described open channel 7 is for falling equilateral triangle, described water pipe 3 is provided with the pipe pressure sensor 4 for detecting water pipe 3 internal water pressure, the middle part of described U-shaped pipe 5 is provided with the pipeline flowmeter 6 for measuring discharge in U-shaped pipe 5, described open channel 7 is provided with the open-channel meter 8 for measuring discharge in open channel 7, described pipe pressure sensor 4, pipeline flowmeter 6 and open-channel meter 8 to be all connected with Monitor Sub-Station of Less 10 by data wire 9 and the data detected to be passed for Monitor Sub-Station of Less 10, described substation power 11 is connected with Monitor Sub-Station of Less 10 and for powering to Monitor Sub-Station of Less 10, described Monitor Sub-Station of Less 10 is connected with server 12 and replaces to server 12 for data being passed, described dispatching host machine 13 be connected with server 12 and from server 12 data dispatching.

In the present embodiment, described pipeline flowmeter 6 is magnetic vortex flow meter, ultrasonic flowmeter or electromagnetic flowmeter.

In the present embodiment, described substation power 11 is intrinsic safety type power supply.

In the present embodiment, the shape of described water pipe 3 is L shape.

Operating principle of the present utility model is: water is extracted out by suction pump 2 from water tank 1, in water pipe 3 and open channel 7, reenter water tank 1 after circulation, and substation power 11 powers to Monitor Sub-Station of Less 10.Pipe pressure sensor 4, pipeline flowmeter 6 and open-channel meter 8 to be all connected with Monitor Sub-Station of Less 10 by data wire 9 and the data detected to be passed for Monitor Sub-Station of Less 10, data pass and replace to server 12 by Monitor Sub-Station of Less 10, and dispatching host machine 13 is data dispatching from server 12.Pipeline flowmeter 6 is arranged in the middle part of the straight length of U-shaped pipe 5, and during to ensure that flow monitored by pipeline flowmeter 6, U-shaped pipe 5 is in full pipe condition all the time.

The above; it is only preferred embodiment of the present utility model; not the utility model is imposed any restrictions; every above embodiment is done according to the utility model technical spirit any simple modification, change and equivalent structure transformation, all still belong in the protection domain of technical solutions of the utility model.

Claims (4)

1. a hydrology real-time monitoring system, it is characterized in that: comprise water tank (1), Monitor Sub-Station of Less (10), substation power (11), server (12) and dispatching host machine (13), suction pump (2) is installed in described water tank (1), described suction pump (2) is connected with water pipe (3), the other end of described water pipe (3) is connected with U-shaped pipe (5), the other end of described U-shaped pipe (5) is connected with open channel (7), the other end of described open channel (7) is communicated with to realize water circulation with the top of water tank (1), the shape of cross section of described open channel (7) is for falling equilateral triangle, described water pipe (3) is provided with the pipe pressure sensor (4) for detecting water pipe (3) internal water pressure, the middle part of described U-shaped pipe (5) is provided with the pipeline flowmeter (6) for measuring U-shaped pipe (5) interior discharge, described open channel (7) is provided with the open-channel meter (8) for measuring open channel (7) interior discharge, described pipe pressure sensor (4), pipeline flowmeter (6) and open-channel meter (8) to be all connected with Monitor Sub-Station of Less (10) by data wire (9) and the data detected to be passed for Monitor Sub-Station of Less (10), described substation power (11) is connected with Monitor Sub-Station of Less (10) and for powering to Monitor Sub-Station of Less (10), described Monitor Sub-Station of Less (10) is connected with server (12) and replaces to server (12) for data being passed, described dispatching host machine (13) be connected with server (12) and from server (12) data dispatching.

2. according to a kind of hydrology real-time monitoring system according to claim 1, it is characterized in that: described pipeline flowmeter (6) is magnetic vortex flow meter, ultrasonic flowmeter or electromagnetic flowmeter.

3. according to a kind of hydrology real-time monitoring system according to claim 1, it is characterized in that: described substation power (11) is intrinsic safety type power supply.

4. according to a kind of hydrology real-time monitoring system according to claim 1, it is characterized in that: the shape of described water pipe (3) is L shape.