CN105673076A - Hydrological real-time monitoring system - Google Patents

Abstract

The invention discloses a hydrological real-time monitoring system. The Hydrological real-time monitoring system comprises a water tank, a monitoring substation, a substation power source, a server and a dispatching host. A water pump is arranged in the water tank and connected with a water pipe, the other end of which is connected with a U-shaped pipe. The other end of the U-shaped pipe is connected with an open channel, the other end of which is communicated with the water tank for water circulation. The shape of the cross section of the open channel is an inverted equilateral triangle. A pressure sensor is arranged on the water pipe. The middle part of the U-shaped pipe is provided with a pipeline flowmeter. A pipeline pressure sensor, the pipeline flowmeter and an open channel flowmeter are connected with the substation via data lines. The substation power source is connected with the monitoring substation. The monitoring substation is connected with the server. The dispatching host is connected with the server. The hydrological real-time monitoring system has following beneficial effects: the hydrological real-time monitoring system is easy in structure, reasonable in design and convenient in application and operation and is capable of conveniently searching and browsing from bulk information so that time and labor are saved; and the requirement for control over water diseases is satisfied.

Description

A kind of hydrology real-time monitoring system

Technical field

The present invention relates to a kind of Monitoring systems, especially relate 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 is prevented and treated in security system, utilize hydrology real-time monitoring system, hydrological observation wells can be carried out the Real-Time Monitoring of hydraulic pressure, water level overlength distance, its monitoring 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 the hydrologic monitoring mode of modernization occurs, traditional hydrologic monitoring mode has been used decades by people. Traditional mode also stops the stage fallen behind in manual record manual query paper preservation etc., to be generally the manual typing that certain hydrologic observation point interpolation information needs very complicated. When to be inquired about information in a certain respect, then being inquired about from a large amount of information and browse, treating processes wastes time and energy, and does not reach the requirement preventing and treating water damage.

Summary of the invention

It is an object of the invention to overcome above-mentioned deficiency of the prior art, thering is provided a kind of hydrology real-time monitoring system, its structure is simple, reasonable in design and uses easy to operate, and convenient inquiry from a large amount of information is browsed, treating processes is time saving and energy saving, reaches the requirement preventing and treating water damage.

For achieving the above object, the technical solution used in the present invention 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, lift pump is installed, described lift pump is connected with water pipe, the other end of described water pipe is connected with U-tube, the other end of described U-tube is connected with open channel, the other end of described open channel is connected to realize water cycle with the top of water tank, the cross section shape 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-tube is provided with the pipeline flow meter for measuring discharge in U-tube, described open channel is provided with the open channel flow rate meter for measuring discharge in open channel, described pipe pressure sensor, pipeline flow meter and open channel flow rate meter are all connected with Monitor Sub-Station of Less by data line and replace the data biography of detection to Monitor Sub-Station of Less, described substation power is connected with Monitor Sub-Station of Less and for Monitor Sub-Station of Less being powered, described Monitor Sub-Station of Less is connected with server and replaces to server for data being passed, described dispatching host machine is connected and data dispatching from server with server.

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

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

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

The present invention compared with prior art has the following advantages:

1, present configuration is simple, reasonable in design and use easy to operate.

2, the convenient inquiry from a large amount of information of the present invention is browsed, and treating processes is time saving and energy saving, reaches the requirement preventing and treating water damage.

3, the present invention manufactures conveniently, manufactures use cost low, is convenient to promote the use of.

Below by drawings and Examples, the present invention is described in further detail.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention.

Description of reference numerals:

1 water tank; 2 lift pumps; 3 water pipes;

4 pipe pressure sensors; 5 U-tube; 6 pipeline flow meters;

7 open channels; 8 open channel flow rate meters; 9 data lines;

10 Monitor Sub-Station of Less; 11 substation powers; 12 servers;

13 dispatching host machine.

Embodiment

As shown in Figure 1, the present invention 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, lift pump 2 is installed, described lift pump 2 is connected with water pipe 3, the other end of described water pipe 3 is connected with U-tube 5, the other end of described U-tube 5 is connected with open channel 7, the other end of described open channel 7 is connected to realize water cycle with the top of water tank 1, the cross section shape 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-tube 5 is provided with the pipeline flow meter 6 for measuring discharge in U-tube 5, described open channel 7 is provided with the open channel flow rate meter 8 for measuring discharge in open channel 7, described pipe pressure sensor 4, pipeline flow meter 6 and open channel flow rate meter 8 are all connected with Monitor Sub-Station of Less 10 by data line 9 and replace the data biography of detection to Monitor Sub-Station of Less 10, described substation power 11 is connected with Monitor Sub-Station of Less 10 and for Monitor Sub-Station of Less 10 being powered, 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 is connected and data dispatching from server 12 with server 12.

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

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-shaped.

The principle of work of the present invention is: water is extracted out by lift pump 2 from water tank 1, reenters water tank 1 in water pipe 3 and open channel 7 after circulation, and substation power 11 powers to Monitor Sub-Station of Less 10. Pipe pressure sensor 4, pipeline flow meter 6 and open channel flow rate meter 8 are all connected with Monitor Sub-Station of Less 10 by data line 9 and replace the data biography of detection to Monitor Sub-Station of Less 10, data are passed for server 12, dispatching host machine 13 is data dispatching from server 12 by Monitor Sub-Station of Less 10. Pipeline flow meter 6 is arranged in the middle part of the straight length of U-tube 5, and during to ensure pipeline flow 6 monitoring flow, U-tube 5 is in full pipe condition all the time.

The above; it it is only the better embodiment of the present invention; not the present invention being imposed any restrictions, every any simple modification, change and equivalent structure conversion above embodiment done according to the technology of the present invention essence, all still belongs in the protection domain of technical solution of the present invention.

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), lift pump (2) is installed in described water tank (1), described lift pump (2) is connected with water pipe (3), the other end of described water pipe (3) is connected with U-tube (5), the other end of described U-tube (5) is connected with open channel (7), the other end of described open channel (7) is connected to realize water cycle with the top of water tank (1), the cross section shape 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-tube (5) is provided with the pipeline flow meter (6) for measuring U-tube (5) interior discharge, described open channel (7) is provided with the open channel flow rate meter (8) for measuring open channel (7) interior discharge, described pipe pressure sensor (4), pipeline flow meter (6) and open channel flow rate meter (8) are all connected with Monitor Sub-Station of Less (10) by data line (9) and replace the data biography of detection to Monitor Sub-Station of Less (10), described substation power (11) is connected with Monitor Sub-Station of Less (10) and for Monitor Sub-Station of Less (10) being powered, 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) is connected and data dispatching from server (12) with server (12).

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

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