CN116839680A - Hydraulic engineering seepage real-time detection device and detection method thereof - Google Patents

Abstract

The application relates to the technical field of hydraulic engineering and discloses a hydraulic engineering seepage real-time detection device and a detection method thereof. This scheme is through the combination setting of monitoring disk seat, winding mechanism and stagnant water valve, be applicable to irrigation canals and ditches or river course monitoring node in the hydraulic engineering, and add the infiltration line at its inner wall, the infiltration line is formed by a plurality of water level sensor, install the monitoring disk seat on the irrigation canals and ditches in advance, stagnant water valve is the closed condition in the time of daily, and its bottom is equipped with the fence and is used for rivers to flow, and when the seepage flow takes place in the monitoring node, the water level can rise, the water level height of seepage flow in time is detected through the water level sensor of not co-altitude this moment.

Description

Hydraulic engineering seepage real-time detection device and detection method thereof

Technical Field

The application relates to the technical field of hydraulic engineering, in particular to a hydraulic engineering seepage real-time detection device and a detection method thereof.

Background

Many aspects of hydraulic engineering involve seepage. Such as by-pass and seepage in the water permeable foundations of hydraulic buildings and in the rock formations or soil bodies to which the building is connected, seepage in water retaining dams, seepage in formations caused by irrigation pumping or construction drainage, etc. The seepage problems studied mainly are: distribution of water heads or ground water levels in a seepage area, determination of seepage flow, force of seepage flow on a building substrate, seepage flow speed distribution, soil structure deformation caused by seepage flow and the like.

The utility model discloses a large-scale hydraulic engineering seepage flow real-time detection device for the prior art publication No. CN 108279255B, including first installation circle, second installation circle and mounting box, the inside temperature sensor and the locator of being equipped with of first installation circle, be equipped with the wire between first installation circle and the second installation circle, also be equipped with the wire between second installation circle and the mounting box, be equipped with the light in the second installation circle. The device is at the internally mounted temperature sensor of dam to measure the temperature around, then send the data to the PLC controller, the PLC controller shows on operating panel, thereby the staff of being convenient for observes the record to measuring data, thereby judges whether the dam takes place the seepage flow according to measuring data.

The above prior art solution, though realizing the beneficial effects related to the prior art by the structure of the prior art, still has the following drawbacks: although the temperature of seepage can be detected through installing the temperature sensor, due to the weather and climate, the water temperature can also generate certain difference, the seepage detection accuracy is not high enough at this time, the detection performance is single, and the water temperature, the flow velocity and the water level condition of the hydraulic engineering monitoring node can not be detected in time.

Disclosure of Invention

In order to solve the problems, the application provides a hydraulic engineering seepage real-time detection device and a detection method thereof.

The application provides a hydraulic engineering seepage real-time detection device and a detection method thereof, which adopt the following technical scheme:

the utility model provides a hydraulic engineering seepage flow real-time detection device, includes the monitoring disk seat, the front end of monitoring disk seat rotates and is equipped with the stagnant water valve, the inner wall of monitoring disk seat is equipped with the infiltration line, be the equidistance on the infiltration line and distribute there is a plurality of level sensor, the bilateral symmetry at monitoring disk seat top is fixed with the frame, be equipped with winding mechanism in the frame, the center department at monitoring disk seat top installs the detection frame, the rain gauge is installed at the top of detection frame, one side of rain gauge is equipped with GNSS displacement monitor, one side of GNSS displacement monitor is equipped with supervisory equipment, one side of supervisory equipment is equipped with the siren, the bottom of detection frame is equipped with monitor terminal.

Preferably, the top symmetry welding of monitoring disk seat front end has the installed part, stagnant water valve rotates with the installed part to be connected, the bilateral symmetry fixedly connected with sealing baffle of monitoring disk seat front end, just sealing baffle laminating stagnant water valve's inner wall, monitoring disk seat bottom both ends symmetry welding has the fixed plate, the bottom of fixed plate is the equidistance welding and has a plurality of location pointed cone, the inside center department of monitoring disk seat is equipped with the measuring cylinder, the measuring cylinder includes temperature meter, osmometer and groundwater flow speed detector.

Preferably, the winding mechanism comprises a rotating wheel and a winding wheel, the rotating wheel is rotationally connected with the frame, a supporting seat is symmetrically welded on one side of the frame, the winding wheel is rotationally connected with the supporting seat, an engine is installed on the outer wall of the supporting seat, the output end of the engine penetrates through the inner wall of the supporting seat and is in transmission with the winding wheel, a stay rope is fixed in the winding wheel, a fence is fixed at the bottom end of the water stop valve in an integral structure, a fixing block is symmetrically welded on the top of the outer wall of the water stop valve, and one end of the stay rope, far away from the winding wheel, is fixedly connected with the fixing block.

Preferably, the bottom welding of detecting the frame has the supporting leg, the bottom of supporting leg passes through bolted connection with the monitoring disk seat, the bilateral symmetry of supporting leg is fixed with solar cell panel, monitoring terminal installs in the supporting leg.

Preferably, the monitoring terminal comprises a remote terminal, a communication module, a controller and a data transceiver module, wherein the solar panel is electrically connected with the controller, the controller is in communication connection with the communication module, the communication module is in communication connection with the remote terminal, the controller is electrically connected with the monitoring equipment, the monitoring equipment is electrically connected with the alarm, and the controller is in data connection with the data transceiver module.

Preferably, the data transceiver module is electrically connected with the rain gauge, the water temperature gauge, the osmometer, the water level sensor, the groundwater flow speed detector and the GNSS displacement monitor.

The application also discloses a detection method of the hydraulic engineering seepage real-time detection device, which comprises the following steps:

s1, dividing each hydraulic engineering monitoring node, such as a ditch or a river channel, before hydraulic engineering seepage detection is carried out, installing a monitoring valve seat into each monitoring node, inserting the monitoring valve seat into soil for positioning through a positioning pointed cone, fixing the monitoring valve seat with the ground through a fixing plate, and pouring concrete on the surface of the fixing plate according to requirements, so that the stability of the installation of the monitoring valve seat is further ensured, when the hydraulic engineering monitoring valve is used daily, a water stop valve can be in a closed state, at the moment, the inner wall of the water stop valve is attached to a sealing baffle plate, the tightness of a contact surface is ensured, and a fence is arranged at the bottom so that water flow can flow daily;

s2, in each independent monitoring node, a rain gauge at the top of the detection frame is used for monitoring rainfall, a GNSS displacement monitor is used for monitoring displacement and sedimentation conditions in a river channel and a ditch, monitoring conditions around the monitoring nodes through monitoring equipment is convenient for background staff to observe in real time, solar panels can absorb sunlight energy and convert the sunlight energy into electric energy for monitoring terminals to supply power for use, a water temperature meter, an osmometer and an underground water flow rate detector in the measurement barrel are used for detecting temperature, water level and flow rate conditions of water flow in time, and if the water level in a valve seat is monitored to rise, water level sensors at all heights in a soaking line can detect and collect the water level conditions;

s3, when seepage occurs in the monitoring node, the data receiving and transmitting module sends collected data to a controller in the monitoring terminal, the controller converts the collected data, sends an alarm through an alarm to prompt surrounding residents, and sends the alarm to a remote terminal through a communication module, so that workers in the background can conveniently and timely detect the seepage condition in the monitoring node, and interference can be conveniently and timely handled;

and S4, when seepage in the valve seat is monitored to rise, the engine can be started, the engine works to drive the winding wheel to rotate in the supporting seat, then the inhaul cable can be driven to wind, at the moment, the inhaul cable slides outside the rotating wheel in an auxiliary manner, the fixed block is pulled to rotate, then the water stop valve can be opened, the internal hidden stream can be conveniently and timely discharged, and the river bank collapse is avoided.

In summary, the application has the following beneficial technical effects:

1. the application is suitable for the ditch or river channel monitoring node in the hydraulic engineering through the combined arrangement of the monitoring valve seat, the winding mechanism and the water stop valve, and adds the infiltration line on the inner wall of the ditch or river channel monitoring node, the infiltration line is formed by a plurality of water level sensors, the water level sensors are distributed at different water level heights, the monitoring valve seat is arranged on the ditch in advance, the water stop valve is in a closed state in daily life, the bottom of the water stop valve is provided with a fence for water flow, when seepage occurs in the monitoring node, the water level rises, and the water level height of the seepage is timely detected through the water level sensors with different heights;

2. through add the measuring vessel in the monitor disk seat, including temperature meter, osmometer and groundwater velocity of flow detector in the measuring vessel for detect the temperature in the rivers, the velocity of flow condition of water, water level and water, conveniently in time gather the seepage flow data, and transmit to remote terminal through monitor terminal, thereby make things convenient for the backstage staff real-time recording data to detect.

Drawings

Fig. 1 is a front view of a hydraulic engineering seepage real-time detection device according to an embodiment of the application.

Fig. 2 is a schematic structural diagram of a hydraulic engineering seepage real-time detection device according to an embodiment of the application.

Fig. 3 is a schematic structural view of a test stand according to an embodiment of the present application.

FIG. 4 is a schematic diagram of the internal structure of a monitor valve seat according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a monitoring terminal according to an embodiment of the application.

Reference numerals illustrate: 1. monitoring a valve seat; 101. a mounting member; 102. a fixing plate; 103. positioning a pointed cone; 104. a sealing baffle; 2. a water stop valve; 201. a fence; 202. a fixed block; 3. an engine; 4. a frame; 401. a rotating wheel; 402. a support base; 403. a winding wheel; 404. a guy cable; 5. a detection frame; 6. a rain gauge; 7. monitoring equipment; 8. a GNSS displacement monitor; 9. an alarm; 10. a solar cell panel; 11. monitoring a terminal; 12. support legs; 13. a water level sensor; 14. a measuring cylinder; 15. a water temperature meter; 16. an osmometer; 17. a groundwater flow speed detector; 18. and (5) soaking the wires.

Detailed Description

The application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses a hydraulic engineering seepage real-time detection device and a detection method thereof. Referring to fig. 1-4, a hydraulic engineering seepage real-time detection device, including monitor disk seat 1, monitor disk seat 1's front end rotation is equipped with stagnant water valve 2, avoid rivers to break up the dyke, monitor disk seat 1's top symmetry welding of front end has installed part 101, stagnant water valve 2 rotates with installed part 101 to be connected, monitor disk seat 1's both sides symmetry fixedly connected with sealing plate 104, and sealing plate 104 laminating stagnant water valve 2's inner wall, the leakproofness of contact surface has been ensured, monitor disk seat 1 bottom both ends symmetry welding has fixed plate 102, be fixed with the ground installation in the monitoring node, the bottom of fixed plate 102 is the equidistance welding and has a plurality of location pointed cone 103, can insert in the soil and fix a position, monitor disk seat 1 inside center department is equipped with measuring cylinder 14, measuring cylinder 14 includes water temperature meter 15, osmometer 16 and groundwater velocity of flow detector 17, water temperature meter 15 sets up to the type HR8003, osmometer 16 sets up to jK-BGK-4500SR type, groundwater velocity of flow velocity detector 17 sets up to the CS type, be used for in time detecting the temperature of rivers, water level condition.

Referring to fig. 1-3, the inner wall of the monitoring valve seat 1 is provided with an infiltration line 18, the infiltration line 18 is inclined, a plurality of water level sensors 13 are distributed on the infiltration line 18 at equal intervals, the water level sensors 13 are arranged to be of the UKL5880 type, the seepage condition of water is monitored in time, a rack 4 is symmetrically fixed on two sides of the top of the monitoring valve seat 1, a winding mechanism is arranged in the rack 4, the winding mechanism comprises a rotating wheel 401 and a winding wheel 403, the rotating wheel 401 is rotationally connected with the rack 4, a supporting seat 402 is symmetrically welded on one side of the rack 4, the winding wheel 403 is rotationally connected with the supporting seat 402, an engine 3 is mounted on the outer wall of the supporting seat 402, the output end of the engine 3 penetrates through the inner wall of the supporting seat 402 and is in transmission with the winding wheel 403, a guy cable 404 is fixed in the winding wheel 403, the bottom end of the water stop valve 2 is integrally fixed with a fence 201 and used for daily water flow, a fixed block 202 is symmetrically welded on the top of the outer wall of the water stop valve 2, one end of the guy 404 far away from the winding wheel 403 is fixedly connected with the fixed block 202, when the water stop valve 2 needs to be opened, the rotating wheel 403 is rotationally driven by the engine 3, the winding wheel 403 is rotationally connected with the supporting seat 402, the guy cable 404 is conveniently slides, and the guy cable 404 is conveniently pulled by the guy valve 404, and the guy valve 2 is convenient to be opened.

In combination with fig. 3-5, the center department at monitoring disk seat 1 top installs detection frame 5, provide holding power, rain gauge 6 is installed at the top of detection frame 5, rain gauge 6 sets up to ZH6110 type, monitor the rainfall condition, one side of rain gauge 6 is equipped with GNSS displacement monitor 8, GNSS displacement monitor 8 sets up to JD-WY1 type, monitor the slope displacement condition of hydraulic engineering, one side of GNSS displacement monitor 8 is equipped with supervisory equipment 7, the background staff of being convenient for observes the condition in each monitoring node, make things convenient for real-time recording, one side of supervisory equipment 7 is equipped with alarm 9, alarm 9 sets up to ZSJL200 type, play the suggestion effect when the seepage flow, the bottom of detection frame 5 is equipped with monitor terminal 11, the bottom welding of detection frame 5 has supporting leg 12, the bottom of supporting leg 12 passes through bolted connection with monitoring disk seat 1, the installation is stable, the bilateral symmetry of supporting leg 12 is fixed with solar cell panel 10, solar cell panel 10 provides the electric energy at monitor terminal 11, monitor terminal 11 installs in supporting leg 12.

The monitoring terminal 11 comprises a remote terminal, a communication module, a controller and a data transceiver module, wherein the solar panel 10 is electrically connected with the controller, the controller is in communication connection with the communication module, the communication module is set to be of an RS485 interface type, the communication module is in communication connection with the remote terminal, the controller is electrically connected with the monitoring equipment 7, the monitoring equipment 7 is electrically connected with the alarm 9, the controller is in data connection with the data transceiver module, the data transceiver module is electrically connected with the rain gauge 6, the water temperature meter 15, the osmometer 16, the water level sensor 13, the groundwater flow speed detector 17 and the GNSS displacement monitor 8, data acquired by the instruments can be sent to the controller through the data transceiver module, and the controller is transmitted to the remote terminal after data processing, so that real-time detection of background staff is facilitated.

The embodiment of the application relates to a hydraulic engineering seepage real-time detection device and a detection method thereof, wherein the implementation principle is as follows: before hydraulic engineering seepage detection is carried out, the monitoring valve seat 1 is installed in each monitoring node, positioning is carried out by inserting a positioning pointed cone 103 into soil, fixing is carried out through a fixing plate 102 and the ground, concrete pouring can be carried out on the surface of the fixing plate 102 according to requirements, the stability of the installation of the monitoring valve seat 1 is further guaranteed, in daily use, the water stop valve 2 can be in a closed state, the inner wall of the water stop valve 2 is attached to the sealing baffle 104, the tightness of a contact surface is guaranteed, a fence 201 is arranged at the bottom so as to facilitate daily flow of water flow, in each independent monitoring node, a rain gauge 6 at the top of the detection frame 5 is used for monitoring rainfall, a GNSS displacement monitor 8 is used for monitoring displacement and sedimentation conditions in the river channel and the ditch, monitoring conditions around the monitoring nodes are monitored through monitoring equipment 7, real-time observation is facilitated for background staff, energy which can be absorbed by the solar cell panel 10 is converted into electric energy for power supply of the monitoring terminal 11, a water temperature meter 15, a seepage pressure meter 16 and a groundwater flow rate detector 17 are used for detecting the temperature, the water level and the water level in the water level sensor 13 in the measuring cylinder 14 in time, and if the water level in the water level sensor 1 is high in the water level sensor 13 can be used for detecting the conditions in the water level sensor 13;

when seepage occurs in the monitoring node, the data receiving and transmitting module can send the collected data to the controller in the monitoring terminal 11, the controller carries out conversion processing on the collected data, and an alarm is sent out through the alarm 9 to prompt surrounding residents, and the data are sent to the remote terminal through the communication module, so that workers in the background can timely perceive the seepage condition in the monitoring node, timely processing interference is facilitated, when seepage in the monitoring valve seat 1 rises, the engine 3 can be started, the engine 3 works to drive the winding wheel 403 to rotate in the supporting seat 402, the stay cable 404 can be driven to wind immediately, the stay cable 404 slides in an auxiliary mode outside the rotating wheel 401, the fixed block 202 is pulled to rotate, the water stop valve 2 can be opened immediately, internal hidden current can be conveniently and timely discharged, and river bank collapse is avoided.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a hydraulic engineering seepage flow real-time detection device, includes monitoring disk seat (1), its characterized in that: the front end rotation of monitoring disk seat (1) is equipped with sealing valve (2), the inner wall of monitoring disk seat (1) is equipped with infiltration line (18), be equidistant on infiltration line (18) and distribute and have a plurality of water level sensor (13), the bilateral symmetry at monitoring disk seat (1) top is fixed with frame (4), be equipped with winding mechanism in frame (4), detection frame (5) are installed at the center department at monitoring disk seat (1) top, rain gauge (6) are installed at the top of detection frame (5), one side of rain gauge (6) is equipped with GNSS displacement monitor (8), one side of GNSS displacement monitor (8) is equipped with supervisory equipment (7), one side of supervisory equipment (7) is equipped with siren (9), the bottom of detection frame (5) is equipped with monitoring terminal (11).

2. The hydraulic engineering seepage real-time detection device according to claim 1, wherein: the top symmetry welding of monitoring disk seat (1) front end has installed part (101), stagnant water valve (2) rotate with installed part (101) to be connected, the bilateral symmetry fixedly connected with sealing plate (104) of monitoring disk seat (1) front end, just sealing plate (104) laminating stagnant water valve (2) inner wall, the welding of monitoring disk seat (1) bottom both ends symmetry has fixed plate (102).

3. The hydraulic engineering seepage real-time detection device according to claim 2, wherein: the bottom of fixed plate (102) is equidistant welding and has a plurality of location pointed cone (103), the inside center department of monitoring disk seat (1) is equipped with measuring cylinder (14), measuring cylinder (14) are including temperature meter (15), osmometer (16) and groundwater velocity of flow detector (17).

4. The hydraulic engineering seepage real-time detection device according to claim 1, wherein: the winding mechanism comprises a rotating wheel (401) and a winding wheel (403), the rotating wheel (401) is rotationally connected with a frame (4), a supporting seat (402) is symmetrically welded on one side of the frame (4), the winding wheel (403) is rotationally connected with the supporting seat (402), an engine (3) is mounted on the outer wall of the supporting seat (402), the output end of the engine (3) penetrates through the inner wall of the supporting seat (402) and is in transmission with the winding wheel (403), and a stay cable (404) is fixed in the winding wheel (403).

5. The hydraulic engineering seepage real-time detection device according to claim 4, wherein: the bottom of stagnant water valve (2) is an integral structure and is fixed with fence (201), the top symmetry welding of stagnant water valve (2) outer wall has fixed block (202), the one end and fixed block (202) fixed connection of reel (403) are kept away from to cable (404).

6. A hydraulic engineering seepage real-time detection device according to claim 3, wherein: the bottom welding of detection frame (5) has supporting leg (12), the bottom of supporting leg (12) passes through bolted connection with monitoring disk seat (1), the bilateral symmetry of supporting leg (12) is fixed with solar cell panel (10), monitoring terminal (11) are installed in supporting leg (12).

7. The hydraulic engineering seepage real-time detection device according to claim 6, wherein: the monitoring terminal (11) comprises a remote terminal, a communication module, a controller and a data transceiver module, the solar panel (10) is electrically connected with the controller, the controller is in communication connection with the communication module, the communication module is in communication connection with the remote terminal, the controller is electrically connected with the monitoring equipment (7), the monitoring equipment (7) is electrically connected with the alarm (9), and the controller is in data connection with the data transceiver module.

8. The hydraulic engineering seepage real-time detection device according to claim 7, wherein: the data transceiver module is electrically connected with the rain gauge (6), the water temperature gauge (15), the osmometer (16), the water level sensor (13), the groundwater flow speed detector (17) and the GNSS displacement monitor (8).

9. The detection method of the hydraulic engineering seepage real-time detection device according to any one of claims 1 to 8, comprising the following steps:

s1, dividing all hydraulic engineering monitoring nodes, such as ditches or river channels, before hydraulic engineering seepage detection is carried out, installing a monitoring valve seat (1) into each monitoring node, inserting the monitoring valve seat into soil for positioning through a positioning pointed cone (103), fixing the monitoring valve seat with the ground through a fixing plate (102), pouring concrete on the surface of the fixing plate (102) according to requirements, further guaranteeing the installation stability of the monitoring valve seat (1), wherein in daily use, a water stop valve (2) can be in a closed state, at the moment, the inner wall of the water stop valve (2) is attached to a sealing baffle (104), the tightness of a contact surface is guaranteed, and a fence (201) is arranged at the bottom so as to facilitate daily flow of water flow;

s2, in each independent monitoring node, a rain gauge (6) at the top of a detection frame (5) is used for monitoring rainfall, a GNSS displacement monitor (8) is used for monitoring displacement and sedimentation conditions in a river channel and a ditch, monitoring is carried out on conditions around the monitoring nodes through monitoring equipment (7), background staff can observe in real time conveniently, solar cell panels (10) can absorb sunlight energy and convert the sunlight energy into electric energy for a monitoring terminal (11) to supply power for use, a water temperature meter (15), an osmometer (16) and a groundwater flow velocity detector (17) in a measuring cylinder (14) are used for timely detecting temperature, water level and flow velocity conditions of water flow, and if the water level in a monitoring valve seat (1) is raised, water level sensors (13) at various heights in a seepage line (18) can detect and collect the water level conditions;

s3, when seepage occurs in the monitoring node, the data receiving and transmitting module sends collected data to a controller in the monitoring terminal (11), the controller converts the collected data, sends an alarm through the alarm (9) to prompt surrounding residents, and sends the alarm to the remote terminal through the communication module, so that workers in the background can conveniently and timely detect the seepage condition in the monitoring node, and interference can be conveniently and timely handled;

s4, when seepage in the valve seat (1) is monitored to rise, the engine (3) can be started, the engine (3) works to drive the winding wheel (403) to rotate in the supporting seat (402), the stay rope (404) can be driven to wind immediately, at the moment, the stay rope (404) slides in an auxiliary mode outside the rotating wheel (401) and pulls the fixed block (202) to rotate, and then the water stop valve (2) can be opened, so that the internal hidden current can be conveniently discharged in time, and river bank collapse is avoided.