CN205604159U - Based on floating invariable hydraulic model test water intaking ware that flows of thing networking - Google Patents
Based on floating invariable hydraulic model test water intaking ware that flows of thing networking Download PDFInfo
- Publication number
- CN205604159U CN205604159U CN201620278454.XU CN201620278454U CN205604159U CN 205604159 U CN205604159 U CN 205604159U CN 201620278454 U CN201620278454 U CN 201620278454U CN 205604159 U CN205604159 U CN 205604159U
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- China
- Prior art keywords
- zigbee wireless
- water
- transport module
- wireless transport
- water inlet
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Abstract
Based on floating invariable hydraulic model test water intaking ware that flows of thing networking belongs to hydraulic engineering technical field, including flourishing water receptacle, kickboard, intelligent expansion bracket, outlet pipe way and control center treater, the lateral wall lower part of flourishing water receptacle is provided with cordon and cut -off line, and the upper portion of cordon setting at cut -off line, the signal output part of control center treater is connected with zigBee wireless transmission module I, zigBee wireless transmission module II and zigBee wireless transmission module's III signal input part respectively, and the signal input part of zigBee wireless transmission module's I signal output part and control center treater is connected. The utility model overcomes the undulant of liquid level changes, can be according to the difference of invariant volume that flows the water intaking, and each property value of automatically regulated is guaranteed the invariant of siphon upstream and downstream water level to reach the effect of the invariant of effluenting.
Description
Technical field
This utility model belongs to hydraulic engineering technical field, especially relates to a kind of steady flow tested and takes
Water device.
Background technology
When carrying out hydraulic test, need from high water level, liquid surface container in fetch water uniformly, conventional
Test use valve be controlled stablizing of water draw rate, generally require employing power set control water intaking
Flow, in process of the test, the invisible difficulty adding test operation and the cost of water intaking.Therefore existing
Having in the middle of technology to need badly wants a kind of novel technical scheme to solve this problem.
Summary of the invention
Technical problem to be solved in the utility model is: provide a kind of based on the floating type constant flowing water of Internet of Things
Work model test device for fetching water and operational approach, overcome the fluctuation change of liquid level, can be according to steady flow water withdrawal
Difference, be automatically adjusted parameters value, it is ensured that siphon water levels of upstream and downstream constant, reach stream constant
Effect.
Based on Internet of Things floating type steady flow hydraulic model test device for fetching water, it is characterized in that: include water container,
Kickboard, Intelligent telescopic frame, outlet pipeline and control centre's processor, the lower sidewall of described water container
It is provided with warning line and dead line, and warning line is arranged on the top of dead line;
Described kickboard is arranged on the inside of water container, kickboard is provided with gold level alarm, liquid level sensor,
Flashing light and ZigBee wireless transport module I, the signal output part of described liquid level sensor and ZigBee without
The signal input part of line transport module I connects;The signal output part of described ZigBee wireless transport module I with
The signal input part of gold level alarm connects;The signal output part of described gold level alarm is connected with flashing light;
One end of described Intelligent telescopic frame pole is arranged in kickboard, and the other end is flexibly connected with outlet pipeline,
Intelligent telescopic frame be internally provided with compression spring, pressure controller and ZigBee wireless transport module II,
The signal output part of described ZigBee wireless transport module II is connected with pressure controller;
The water inlet port of described outlet pipeline is arranged on inside water container, and water inlet port is provided with opens into water
Closing, water side is arranged on the outside of water container, and the water outlet port connection of outlet pipeline has lengthened hose,
Be provided with water inlet switch controller and ZigBee wireless transport module III on outlet pipeline, described ZigBee without
The signal output part of line transport module III is connected with the signal input part of water inlet switch controller;Described water inlet is opened
The signal output part of gateway controller is connected with water inlet switch;
The signal output part of described control centre processor respectively with ZigBee wireless transport module I, ZigBee
The signal input part of wireless transport module II and ZigBee wireless transport module III connects, and ZigBee without
The signal output part of line transport module I is connected with the signal input part of control centre's processor.
The cross-sectional area of described outlet pipeline water inlet port is controlled by water inlet switch controller and water inlet switch.
The length of described Intelligent telescopic frame is controlled by compression spring and pressure controller.
By above-mentioned design, this utility model can bring following beneficial effect: floats based on Internet of Things
Formula steady flow hydraulic model test device for fetching water and operational approach, overcome the fluctuation change of liquid level, can be according to perseverance
The difference of constant current water withdrawal, is automatically adjusted parameters value, it is ensured that siphon water levels of upstream and downstream constant, reaches
To going out the effect that stream is constant.By utilizing ZigBee wireless transport module to combine with processor, carry out intelligence
Control the difference in height i.e. Intelligent telescopic frame of discharge section area when fetching water and effluent pipe mouth section and upstream fluid level
Height value guarantee test time steady flow water intaking;The warning line arranged, can reach certain value at water level
Time, start gold level alarm and flashing light, report to the police;The dead line arranged, can reach minimum at water level
During value, stop water intaking, it is ensured that the safety of equipment.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, this utility model is further described:
Fig. 1 is that this utility model is based on Internet of Things floating type steady flow hydraulic model test device for fetching water structural representation
Figure.
Fig. 2 is that this utility model is based on Internet of Things floating type steady flow hydraulic model test device for fetching water internal signal
Transmission schematic diagram.
In figure, 1-water container, 2-kickboard, 3-Intelligent telescopic frame, 4-outlet pipeline, 5-control centre process
Device, 6-warning line, 7-gold level alarm, 8-liquid level sensor, 9-flashing light, 10-ZigBee are wirelessly transferred
Module I, 11-compression spring, 12-pressure controller, 13-ZigBee wireless transport module II, 14-are intake
Switch, 15-lengthened hose, 16-water inlet switch controller, 17-ZigBee wireless transport module III, 18-
Dead line.
Detailed description of the invention
Based on Internet of Things floating type steady flow hydraulic model test device for fetching water, as depicted in figs. 1 and 2, including
Water container 1, kickboard 2, Intelligent telescopic frame 3, outlet pipeline 4 and control centre's processor 5, described
The lower sidewall of water container 1 is provided with warning line 6 and dead line 18, and warning line 6 is arranged on dead line
The top of 18;
Described kickboard 2 is arranged on the inside of water container 1, and kickboard 2 is provided with gold level alarm 7, liquid
Level sensor 8, flashing light 9 and ZigBee wireless transport module I 10, the signal of described liquid level sensor 8
The signal input part of outfan ZigBee wireless transport module I 10 connects, and described ZigBee is wirelessly transferred mould
The signal output part of block I 10 is connected with the signal input part of gold level alarm 7;Described gold level alarm 7
Signal output part is connected with flashing light 9;
One end of described Intelligent telescopic frame 3 pole is arranged in kickboard 2, and the other end is with outlet pipeline activity even
Connect, Intelligent telescopic frame 3 be internally provided with compression spring 11, pressure controller 12 and ZigBee is wireless
Transport module II 13, the signal output part of described ZigBee wireless transport module II 13 and pressure controller 12
Connect;
It is internal that the water inlet port of described outlet pipeline 4 is arranged on water container 1, water inlet port be provided with into
Taps 14, water side is arranged on the outside of water container 1, and the water outlet port of outlet pipeline connects to have and adds
Long soft-pipe 15, outlet pipeline 4 is provided with water inlet switch controller 16 and ZigBee wireless transport module III
17, the signal output part of described ZigBee wireless transport module III 17 and the signal of water inlet switch controller 16
Input connects;The signal output part of described water inlet switch controller 16 inputs with the signal of water inlet switch 14
End connects;
The signal output part of described control centre processor 5 respectively with ZigBee wireless transport module I 10,
The signal input part of ZigBee wireless transport module II 13 and ZigBee wireless transport module III 17 connects,
And the signal input part of the signal output part of ZigBee wireless transport module I 10 and control centre's processor 5 is even
Connect.
Described outlet pipeline 4 intakes the cross-sectional area of port by water inlet switch controller 16 and water inlet switch 14
Control.
The length of described Intelligent telescopic frame 3 is controlled by compression spring 11 and pressure controller 12.
Control method based on Internet of Things floating type steady flow hydraulic model test device for fetching water, is characterized in that: bag
Include following steps,
Step one, rate of discharge value Q fetched water to control centre's processor 5 input, according to formula
(wherein μcIt is acceleration of gravity for discharge coefficient, g), control centre's processor 5 obtains water outlet pipeline 4
Water inlet port cross-sectional area value A and the length value h of Intelligent telescopic frame 3;
Step 2, the water inlet port cross-sectional area value of the outlet pipeline 4 obtained according to described step one, by it
It is converted into data signal transmission to ZigBee wireless transport module III 17, ZigBee wireless transport module III 17
Instruction is transferred to water inlet switch controller 16, and water inlet switch controller 16 controls water inlet switch 14 and adjusts
Water lines 4 is intake the cross section product value of port;
Step 3, the length value of the Intelligent telescopic frame 3 obtained according to described step one, convert thereof into data
Signal is transferred to ZigBee wireless transport module II 13, and instruction is transmitted by ZigBee wireless transport module II 13
To pressure controller 12, pressure controller 12 controls compression spring 11 and regulates the length value of Intelligent telescopic frame 3;
Step 4, carry out steady flow water intaking according to described step one to step 3, be arranged on the liquid in kickboard 2
Level sensor 8 detects liquid level, and steady flow water intaking drops on water container 1 sidewall to liquid level
Warning line 6, data are passed by the signal output part of liquid level sensor 8 by ZigBee wireless transport module I 10
Being defeated by control centre's processor 5, warning message is fed back to ZigBee and is wirelessly transferred by control centre's processor 5
Module I 10, controls to trigger the gold level alarm 7 being arranged in kickboard 2, and gold level alarm 7 controls flashing light 9
Lighting, to test operation, personnel send alarm signal;
Step 5, sending through described step 4 alarm signal, the liquid level sensor 8 being arranged in kickboard 2 is examined
Surveying liquid level as little as dead line 18, liquid level sensor 11 transmits a signal to ZigBee wireless transport module
I 10, ZigBee wireless transport module I 10 transmits a signal to control centre's processor 5, at control centre
Reason device 5 transmits signal to ZigBee wireless transport module III 17, and ZigBee wireless transport module III 17 will refer to
Order is transferred to water inlet switch controller 16, and water inlet switch controller 16 controls water inlet switch 14 and cuts out, and terminates
Steady flow water intaking test.
Claims (3)
1., based on Internet of Things floating type steady flow hydraulic model test device for fetching water, it is characterized in that: include the appearance that is filled with water
Device (1), kickboard (2), Intelligent telescopic frame (3), outlet pipeline (4) and control centre's processor (5),
The lower sidewall of described water container (1) is provided with warning line (6) and dead line (18), and warning line (6)
It is arranged on the top of dead line (18);
Described kickboard (2) is arranged on the inside of water container (1), and kickboard is provided with level alarm on (2)
Device (7), liquid level sensor (8), flashing light (9) and ZigBee wireless transport module I (10), described
The signal output part of liquid level sensor (8) and the signal input part of ZigBee wireless transport module I (10)
Connect;The signal output part of described ZigBee wireless transport module I (10) and gold level alarm (7)
Signal input part connects;The signal output part of described gold level alarm (7) is connected with flashing light (9);
One end of described Intelligent telescopic frame (3) pole is arranged in kickboard (2), the other end and outlet pipeline
Be flexibly connected, Intelligent telescopic frame (3) be internally provided with compression spring (11), pressure controller (12)
And ZigBee wireless transport module II (13), the signal of described ZigBee wireless transport module II (13)
Outfan is connected with pressure controller (12);
It is internal that the water inlet port of described outlet pipeline (4) is arranged on water container (1), and water inlet port sets
Being equipped with water inlet switch (14), water side is arranged on the outside of water container (1), and outlet pipeline (4)
Water outlet port connects lengthened hose (15), and outlet pipeline (4) is provided with water inlet switch controller (16)
With ZigBee wireless transport module III (17);The signal of described ZigBee wireless transport module III (17) is defeated
Go out end to be connected with the signal input part of water inlet switch controller (16);Described water inlet switch controller (16)
Signal output part be connected with water inlet switch (14);
The signal output part of described control centre processor (5) respectively with ZigBee wireless transport module I
(10), ZigBee wireless transport module II (13) and the letter of ZigBee wireless transport module III (17)
Number input connects, and the signal output part of ZigBee wireless transport module I (10) processes with control centre
The signal input part of device (5) connects.
It is the most according to claim 1 based on Internet of Things floating type steady flow hydraulic model test device for fetching water,
It is characterized in that: the cross-sectional area of described outlet pipeline (4) water inlet port by water inlet switch controller (16) and
Water inlet switch (14) controls.
It is the most according to claim 1 based on Internet of Things floating type steady flow hydraulic model test device for fetching water,
It is characterized in that: the length of described Intelligent telescopic frame (3) is by compression spring (11) and pressure controller (12)
Control.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620278454.XU CN205604159U (en) | 2016-04-06 | 2016-04-06 | Based on floating invariable hydraulic model test water intaking ware that flows of thing networking |
Applications Claiming Priority (1)
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CN201620278454.XU CN205604159U (en) | 2016-04-06 | 2016-04-06 | Based on floating invariable hydraulic model test water intaking ware that flows of thing networking |
Publications (1)
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Family
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CN201620278454.XU Expired - Fee Related CN205604159U (en) | 2016-04-06 | 2016-04-06 | Based on floating invariable hydraulic model test water intaking ware that flows of thing networking |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105696515A (en) * | 2016-04-06 | 2016-06-22 | 长春工程学院 | Floating type constant flow hydraulic model test water extracting device based on Internet of Things and operation method |
CN108547250A (en) * | 2018-03-02 | 2018-09-18 | 中国水利水电科学研究院 | Simulation power station Stoplog gate stratified pumping, which is got rid of, increases load test system and method |
-
2016
- 2016-04-06 CN CN201620278454.XU patent/CN205604159U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105696515A (en) * | 2016-04-06 | 2016-06-22 | 长春工程学院 | Floating type constant flow hydraulic model test water extracting device based on Internet of Things and operation method |
CN108547250A (en) * | 2018-03-02 | 2018-09-18 | 中国水利水电科学研究院 | Simulation power station Stoplog gate stratified pumping, which is got rid of, increases load test system and method |
CN108547250B (en) * | 2018-03-02 | 2023-07-25 | 中国水利水电科学研究院 | Layered water taking, load throwing and increasing experiment system and method for simulating stoplog door of hydropower station |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160928 Termination date: 20170406 |
|
CF01 | Termination of patent right due to non-payment of annual fee |