CN114739463A - Water pumping test data acquisition and data processing device system - Google Patents

Abstract

The invention belongs to the technical field of water pumping test data acquisition and data processing, in particular to a water pumping test data acquisition and data processing device system, aiming at the problems that the existing water pumping test is complex in operation, needs to be manually read, needs to print a record table and is easy to generate errors, the invention provides a scheme which comprises a water level data acquisition terminal, a flow data acquisition terminal and a water pumping test data receiving and controlling device, wherein the water level data acquisition terminal, the flow data acquisition terminal and the water pumping test data receiving and controlling device are mutually connected in a staggered mode, and the water level data acquisition terminal comprises a water level data acquisition sensor, a water level data acquisition control module, a first wireless transmission module and a first power supply module. The invention has convenient operation, and the main hole saves the links of putting a liquid level instrument probe, coiling a wire and the like; a large amount of manpower reading is saved; the environment is protected; saving printing record forms; inquiring a curve on site and observing data characteristics; human error is reduced.

Description

Water pumping test data acquisition and data processing device system

Technical Field

The invention relates to the technical field of water pumping test data acquisition and data processing, in particular to a water pumping test data acquisition and data processing device system.

Background

The steady flow pumping test is an indispensable technical means in the works such as regional hydrogeological survey, mine hydrogeological survey, water source and ground survey and the like and is used for calculating hydrogeological parameters such as unit water inflow of a drill hole, permeability coefficient of a water-bearing stratum, water supply degree and the like.

The pumping test in hydrogeological exploration work is an effective method for acquiring hydrogeological parameters. The main measured data of the pumping test are flow and water level depth. The current flow measuring method mainly comprises a weir box, a flowmeter, a water meter or a volume method; the measuring method of the water level depth is mainly a measuring rope or a throwing-in type liquid level meter with a digital display screen. The above measurement methods are generally operated by measurement personnel, and the manual operation has the following disadvantages: 1. manpower resources are wasted relatively, coordination 2 and synchronism are deviated, and especially when a group hole pumping test is carried out, a large number of required measuring personnel are needed, and synchronism is difficult to achieve. 3. The artificial error is large, the measuring time interval is short in the initial stage of the pumping test, the water level change of the pumping well is fast, and accurate data are difficult to measure at a set moment.

The existing water pumping test is complex in operation, manual reading is needed, a record table needs to be printed, and errors are easy to occur.

Disclosure of Invention

The invention aims to solve the defects that the existing pumping test is complex in operation, needs to be read manually, needs to print a record table and is easy to cause errors, and provides a pumping test data acquisition and data processing device system.

In order to achieve the purpose, the invention adopts the following technical scheme:

a pumping test data acquisition and data processing device system comprises a water level data acquisition terminal, a flow data acquisition terminal and a pumping test data receiving and controller, wherein the water level data acquisition terminal, the flow data acquisition terminal and the pumping test data receiving and controller are connected in a staggered manner, and the water level data acquisition terminal comprises a water level data acquisition sensor, a water level data acquisition control module, a first wireless transmission module and a first power supply module; the flow data acquisition terminal comprises a flow data acquisition sensor, a flow data acquisition control module, a second wireless transmission module and a second power supply module; the water pumping test data receiving and controlling device comprises a wireless data analysis processor, a water pumping test control center and a data analysis and storage device.

Preferably, the water level data acquisition control module comprises a data acquisition unit, a data transmission unit, a data number recording unit and a data storage unit.

Preferably, the data acquisition unit is used for receiving and collecting data and simultaneously receiving data of several data acquirers.

Preferably, the data transmission unit is used for transmitting data, and the effective transmission distance is 10km (for a group hole pumping test).

Preferably, the data number entry unit is used for numbering in advance and information entry, and mainly includes: first, testing device data acquisition, and second, survey measured data acquisition.

Preferably, the data saving unit is used for automatically saving and exporting data.

Preferably, the data drawing unit is used for drawing data.

Preferably, the water pumping test control center comprises a test setting unit and a test termination unit;

the test setting unit is used for setting initial time and interval time and simultaneously transmitting data by a plurality of data acquirers;

the test termination unit is used for terminating the test at any time according to the field condition.

Preferably, the flow data acquisition control acquisition module comprises a flow data acquisition unit, a flow data comparison unit and a flow data control unit;

the flow data acquisition unit is used for acquiring flow;

the flow data comparison unit is used for comparing the flow with the pipe diameter size;

the flow data control unit is used for changing the flow according to the pipe diameter of the water pipe.

Compared with the prior art, the invention has the advantages that:

the invention has convenient operation, and the main hole saves the links of putting a liquid level instrument probe, coiling a wire and the like; a large amount of manpower reading is saved; the environment is protected; saving printing record tables; inquiring a curve on site and observing data characteristics; human error is reduced.

Drawings

FIG. 1 is a block diagram of a pump test data acquisition and data processing device system according to the present invention;

fig. 2 is a block diagram of a data receiving module according to the present invention;

FIG. 3 is a block diagram of a water pumping test control center according to the present invention;

FIG. 4 is a block diagram of a water depth data acquisition module according to the present invention;

FIG. 5 is a block diagram of a flow data acquisition control module according to the present invention;

fig. 6 is a schematic diagram of the installation of the terminal device of the system of the present invention.

In the figure: 1. a water level data acquisition terminal device; 2. a flow data acquisition terminal device; 3. pumping water through holes; 4. an observation hole; 5. a water pump; 6. a water outlet pipe; 7. a water line;

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.

Example one

Referring to fig. 1-5, a pumping test data acquisition and data processing device system comprises a water level data acquisition terminal, a flow data acquisition terminal and a pumping test data receiving and controller, wherein the water level data acquisition terminal, the flow data acquisition terminal and the pumping test data receiving and controller are connected in a staggered manner, and the water level data acquisition terminal comprises a water level data acquisition sensor, a water level data acquisition control module, a first wireless transmission module and a first power supply module; the flow data acquisition terminal comprises a flow data acquisition sensor, a flow data acquisition control module, a second wireless transmission module and a second power supply module; the water pumping test data receiving and controlling device comprises a wireless data analysis processor, a water pumping test control center and a data analysis and storage device.

The water level data acquisition control module comprises a data acquisition unit, a data transmission unit, a data number recording unit and a data storage unit.

The data acquisition unit is used for receiving and acquiring data and receiving data of a plurality of data acquirers at the same time;

the data transmission unit is used for transmitting data, and the effective transmission distance is 10km (aiming at a group hole pumping test);

the data drawing unit is used for drawing data;

the data number entry unit is used for numbering in advance and information entry, and mainly comprises: firstly, acquiring data of a test device, and secondly, investigating actual measurement data acquisition;

the data storage unit is used for automatically storing and exporting data.

In the embodiment, the pumping test control center is used for controlling the test according to the field condition;

the water pumping test control center comprises a test setting unit and a test termination unit;

the test setting unit is used for setting initial time and interval time and simultaneously transmitting data by a plurality of data acquirers;

the test termination unit is used for terminating the test at any time according to the field condition.

In this embodiment, the water depth data acquisition module is used for pumping water and acquiring the water depth;

in this embodiment, the flow data acquisition control acquisition module is used for acquiring and regulating the flow; the flow data acquisition control acquisition module comprises a flow data acquisition unit, a flow data comparison unit and a flow data control unit;

the flow data acquisition unit is used for acquiring flow;

the flow data comparison unit is used for comparing the flow with the pipe diameter size;

the flow data control unit is used for changing the flow according to the pipe diameter of the water pipe.

In the embodiment, the sensor in the water level data acquisition terminal is a water pressure sensing device and can sense the water depth between the water level and the installation depth of the device;

the water level data acquisition terminal is installed in two types, wherein a device installed in the water pumping hole can be installed on the water pump through measures such as a hoop and the like and enters the water pumping hole along with the water pump; the device arranged in the observation hole is thrown into the observation hole through the connecting wire rope;

the power supply module in the water level data acquisition terminal device adopts a built-in battery, so that the installation process of connecting an external power supply circuit can be reduced;

waterproof measures are arranged outside the water level data acquisition terminal; the test receiving and controlling device can set the initial time of the pumping test and the interval time of data acquisition and pass through the wireless transmission module.

Example two

Referring to fig. 1-6, a pumping test data acquisition and data processing device system comprises a pumping hole 3, an observation hole 4, a water level data acquisition terminal device 1, a flow data acquisition terminal device 2 and a pumping test data receiving and controller, wherein the water level data acquisition terminal device 1, the flow data acquisition terminal device 2 and the pumping test data receiving and controller are in staggered connection with each other, the water level data acquisition terminal device 1 is a water level data acquisition terminal, and the water level data acquisition terminal comprises a water level data acquisition sensor, a water level data acquisition control module, a first wireless transmission module and a first power supply module; the flow data acquisition terminal device 2 is a flow data acquisition terminal which comprises a flow data acquisition sensor, a flow data acquisition control module, a second wireless transmission module and a second power supply module; the pumping test data receiving and controlling device comprises a wireless data analysis processor, a pumping test control center and a data analysis and storage device;

water level lines 7 are arranged in the water pumping holes 3 and the observation holes 4.

The water level data acquisition terminal devices 1 are two and are respectively positioned in the water pumping holes 3 and the observation holes 4, the water pumping holes 3 are also internally provided with a water pump 5 and a water outlet pipe 6, the bottom end of the water outlet pipe 6 is communicated with the water pump 5, and the top end of the water outlet pipe 6 is communicated with the flow data acquisition terminal device 2;

specifically, the sensor in the water level data acquisition terminal device 1 is a water pressure sensing device, and can sense the water depth between the water level and the installation depth of the device.

The installation of the water level data acquisition terminal 1 device is divided into two types, wherein the device installed in the water pumping hole 3 can be installed on a water pump through measures such as a hoop and the like and enters the water pumping hole 3 along with the water pump 5; the device installed in the observation hole 4 is thrown into the observation hole 4 through a connection cord.

The power supply module in the water level data acquisition terminal device 1 adopts a built-in battery, so that the installation process of connecting an external power supply circuit can be reduced.

Waterproof measures are arranged outside the water level data acquisition terminal device 1.

The test receiving and controlling device can set the initial time of the pumping test and the interval time of data acquisition and pass through the wireless transmission module.

The water level data acquisition control module and the flow data acquisition control module specifically comprise the following performances:

firstly, data of a plurality of data acquirers are received at the same time, and timeliness is achieved;

secondly, the effective transmission distance can reach more than 10km (aiming at a group hole pumping test);

thirdly, numbering and information inputting in advance;

q1, Q2; the data of S1 and S2 are obtained by a test device;

other data are obtained by survey and actual measurement;

fourthly, the data can be automatically stored and exported, wherein the water depth data is automatically converted into s;

fifth, Q, s-t curves can be plotted;

sixthly, s-t curves of the water pumping hole and the n observation holes can be drawn;

seventh, an s-lgt curve may be plotted;

eighthly, lowering depth more and drawing a Q-s curve;

ninthly, multiple observation holes are used for drawing an lgs-r curve.

The water pumping test control center specifically comprises the following working modes:

firstly, setting initial time and interval time, and simultaneously transmitting data by a plurality of data acquirers;

second, the test can be terminated at any time, depending on the field situation.

The water depth data acquisition module specifically comprises the following working modes:

firstly, the device A and the water pumping hole device (can be mounted and dismounted on a pump), can be wirelessly transmitted, have waterproofness, can be charged, do not need to be electrified on site, have strong endurance, have a protective shell, can prevent from being damaged in the processes of lifting the pump, lowering the pump and performing experiments, can be maintained, can be mounted on pumps of different models, and have miniaturization and light weight;

secondly, the device B and the observation hole device have wireless transmission, but are also of throw-in type, and the top end of the device B can also be connected with a digital display screen A.

The flow data acquisition control acquisition module specifically comprises the following working modes:

the flow data is wirelessly transmitted by matching with an electromagnetic flowmeter; the flowmeter can be charged according to the diameter of the water pipe, does not need to be electrified on site, has strong cruising ability, can be maintained by the protective shell, removes silt and has the advantage of light weight.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention in the technical scope of the present invention.

Claims (9)

1. A pumping test data acquisition and data processing device system comprises a water level data acquisition terminal, a flow data acquisition terminal and a pumping test data receiving and controller, and is characterized in that the water level data acquisition terminal, the flow data acquisition terminal and the pumping test data receiving and controller are in staggered connection with each other, and the water level data acquisition terminal comprises a water level data acquisition sensor, a water level data acquisition control module, a first wireless transmission module and a first power supply module; the flow data acquisition terminal comprises a flow data acquisition sensor, a flow data acquisition control module, a second wireless transmission module and a second power supply module; the water pumping test data receiving and controlling device comprises a wireless data analysis processor, a water pumping test control center and a data analysis and storage device.

2. The water pumping test data acquisition and data processing device system as claimed in claim 1, wherein the water level data acquisition control module comprises a data acquisition unit, a data transmission unit, a data number recording unit, a data storage unit and a data drawing unit.

3. The system of claim 2, wherein the data acquisition unit is configured to receive and collect data from several data obtainers simultaneously.

4. The system of claim 2, wherein the data transmission unit is configured to transmit data over an effective transmission distance of 10 km.

5. The water pumping test data acquisition and data processing device system according to claim 2, wherein the data number entry unit is used for advanced numbering and information entry, and mainly comprises: first, testing device data acquisition, and second, survey measured data acquisition.

6. The system of claim 2, wherein the data storage unit is configured to automatically store and export data.

7. The water pumping test data acquisition and data processing device system according to claim 2, wherein the data mapping unit is configured to map data.

8. The water pumping test data acquisition and data processing device system according to claim 1, wherein the water pumping test control center comprises a test setting unit and a test termination unit;

the test setting unit is used for setting initial time and interval time and simultaneously transmitting data by a plurality of data acquirers;

the test termination unit is used for terminating the test at any time according to the field condition.

9. The water pumping test data acquisition and data processing device system according to claim 1, wherein the flow data acquisition control acquisition module comprises a flow data acquisition unit, a flow data comparison unit, and a flow data control unit;

the flow data acquisition unit is used for acquiring flow;

the flow data comparison unit is used for comparing the flow with the pipe diameter size;

the flow data control unit is used for changing the flow according to the pipe diameter of the water pipe.

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