CN210005559U

CN210005559U - hydraulic engineering dynamic supervision device

Info

Publication number: CN210005559U
Application number: CN201920607912.3U
Authority: CN
Inventors: 赵宁宁
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-04-29
Filing date: 2019-04-29
Publication date: 2020-01-31
Anticipated expiration: 2029-04-29

Abstract

The utility model relates to a hydraulic engineering technical field just discloses hydraulic engineering developments supervision device, including shell, stand and the fixed column under water, the top fixedly connected with support column of shell, the top fixed mounting of support column has solar charging panel, the bottom fixedly connected with stand of shell, the bottom fixed mounting of shell has receiver and second receiver, this developments supervision device, through the bottom of the sealed stand of sealing connection piece, prevent that the stand from leaking, conveniently insert subaqueous earth through the circular cone tip, then will be under water the fixed column whole insert in earth, make the fixed column more fixed in earth under water through the non-slip bulge, increased the stability of device, then insert the fixed block in earth, later insert the fixed iron nail under water through the iron nail cap, then through fixed plate fixed block and fixed iron nail to rock about making the device can not, increase the stability of device in aqueous, reached the convenient purpose of installation.

Description

hydraulic engineering dynamic supervision device

Technical Field

The utility model relates to a hydraulic engineering technical field specifically is hydraulic engineering developments supervision devices.

Background

Hydraulic engineering is an engineering built for controlling and allocating surface water and underground water in the nature to achieve the purpose of removing harm and benefiting, also called water engineering, water is a valuable resource essential for human production and life, but the naturally existing state of the water does not completely meet the needs of human beings, and water flow can be controlled only by building the hydraulic engineering to prevent flood disasters and adjust and distribute water quantity to meet the needs of people for life and production on water resources.

In the hydraulic monitoring work, the speed measurement and monitoring of water flow near a channel or a gate are needed, but most of the water flow speed measuring devices in the prior art have the defects of high price, unstable standing in water, inaccurate measuring effect and the like, so hydraulic engineering dynamic monitoring devices are proposed to solve the problems.

SUMMERY OF THE UTILITY MODEL

() problems to be solved

Not enough to prior art, the utility model provides an hydraulic engineering developments supervision device possesses simple structure, and the installation is convenient, measures advantages such as convenient, has solved the most current velocity of water measuring device among the prior art and has had the price height, stand shakiness and the unsafe problem of measuring effect in aqueous.

(II) technical scheme

dynamic monitoring device for hydraulic engineering, including a housing, a stand column and an underwater fixing column, wherein the top of the housing is fixedly connected with a support column, the top of the support column is fixedly connected with a solar charging panel, the bottom of the housing is fixedly connected with the stand column, the bottom of the housing is fixedly mounted with an receiver and a second receiver, the receiver is positioned at the left side of the second receiver, the bottom of the right side of the stand column is embedded with a second fixed sealing ring, the inside of the second fixed sealing ring is slidably connected with a second rotating shaft, the end of the second rotating shaft positioned inside the stand column is provided with a water infrared instrument, the bottom of the left side of the stand column is embedded with a fixed sealing ring, the inside of the fixed sealing ring is slidably connected with a rotating shaft, the end of the rotating shaft positioned inside the stand column is provided with a deep water infrared instrument, the bottom of the stand column is fixedly mounted with a sealed connecting block, the bottom of the sealed connecting block is fixedly connected with an underwater fixing column, the bottom of which is provided with a plurality of anti-slip terminals, the output end of the underwater light-proof terminal is electrically connected with an input end of the deep water infrared instrument, an output end of an output terminal of an input terminal of an underwater image processing module, an output terminal of an LED processing module, an output terminal, an input terminal of the LED processing module, an output terminal of the LED processing module is electrically connected with an output terminal, an output terminal of the LED processing module, an output terminal, an input terminal, an output.

Preferably, the second fixed sealing ring is higher than the th fixed sealing ring, and the th rotating shaft and the end of the second rotating shaft on the water surface are both fixedly provided with rotating wheels.

Preferably, the lateral surface fixed mounting of sealing connection block has the fixed plate, the quantity of fixed plate is four, and evenly installs around sealing connection block, side that sealing connection block was kept away from to the fixed plate has pegged graft fixed iron nail, the top fixed mounting of fixed iron nail has the iron nail cap, the bottom fixed mounting of fixed plate has the fixed block, the quantity of fixed block is four, fixed block fixed mounting is between iron nail and fixed column.

Preferably, the th receiver and the second receiver are both arranged inside the upright post, the th receiver is positioned right above the deep water infrared ray instrument, and the second receiver is positioned right above the shallow water infrared ray instrument.

Preferably, the bottom both sides fixed mounting of solar charging panel has the light, the top fixed mounting of shell has the camera, the camera is located the side of support column, the front fixed mounting of shell has the LED display screen.

Preferably, the top of the outer surface of the upright post is provided with a dangerous water level line, and a water level scale mark is arranged below the dangerous water level line.

(III) advantageous effects

Compared with the prior art, the utility model provides an hydraulic engineering developments supervision device possesses following beneficial effect:

1. the interface is sealed through the -th fixed sealing ring and the second fixed sealing ring, river water is prevented from entering the inside of the upright post, when flowing water flows through the runner, the runner can drive the -th bearing and the second bearing to rotate, so that the deep water infrared instrument and the shallow water infrared instrument respectively follow the -th rotating shaft and the second rotating shaft to do circular motion, signals sent by the deep water infrared instrument and the shallow water infrared instrument can be respectively transmitted to the -th receiver and the second receiver, then the water flow in deep water and shallow water areas is respectively calculated through the A/D converter and finally displayed on the LED display screen, manual measurement is not needed, and the purposes of simple structure and accurate measurement are achieved.

2. This developments supervision device, bottom through the sealed stand of sealing connection piece, prevent that the stand from leaking, conveniently insert underwater earth through the circular cone tip, then will be under water the whole earth that inserts of fixed column, make the fixed column more fixed in earth under water through the non-slip raised, the stability of device has been increased, then insert the fixed block in earth, later insert fixed iron nail under water through the iron nail cap, then fix fixed block and fixed iron nail through the fixed plate, thereby make the device can not control and rock, increase the stability of device in aqueous, the convenient purpose of installation has been reached.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the installation of the underwater fixing column structure of the present invention;

FIG. 3 is a schematic view of a portion A of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the surface of a part of the pillar structure of the present invention;

fig. 5 is a schematic view of the working principle of the present invention.

The solar energy water meter comprises a shell 1, a support column 2, a support column 3, a lighting lamp 4, a solar charging panel 5, a camera 6, an th receiver 7, a shallow water infrared ray meter 8, a deep water infrared ray meter 9, a rotating wheel 10, a stand column 11, an LED display screen 12, an iron nail cap 13, a fixing plate 14, a fixing block 15, a fixing iron nail 16, an anti-skid bump 17, a conical tip 18, an underwater fixing column 19, a sealing connecting block 20, a dangerous water line 21, a water level scale line 22, a second receiver 23, a fixing sealing ring 24, a second fixing sealing ring 25, a second rotating shaft 26, a rotating shaft 27, an A/D converter 28, a terminal processor 29, an alarm module 30, a storage module 31, a display module 32, a controller 33 and an image acquisition module.

Detailed Description

The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of , but not all embodiments.

Please refer to fig. 1-5, hydraulic engineering dynamic supervision device, including a housing 1, a stand column 10 and an underwater fixing column 18, a support column 2 is fixedly connected to the top of the housing 1, a solar charging panel 4 is fixedly installed on the top of the support column 2, the solar charging panel 4 is used to convert solar energy into electrical energy to supply power to the device, thereby ensuring long-term use of the device, a stand column 10 is fixedly connected to the bottom of the housing 1, a first receiver 6 and a second receiver 22 are fixedly installed on the bottom of the housing 1, a 0 receiver 6 is located on the left side of the second receiver 22, a second fixing seal ring 24 is embedded in the bottom of the right side of the stand column 10, a second rotating shaft 25 is slidably connected to the inside of the second fixing seal ring 24, a shallow water infrared instrument 7 is disposed at the end of a of the second rotating shaft 25 located inside the stand column 10, a 2 is embedded in the bottom of the stand column 10, a fixing seal ring 23 is disposed on the bottom of the left side of the stand column 10, a is fixedly connected to a , a rotating shaft 26 of a fixing seal ring 23, a 25, a rotating shaft 26 is disposed on a , a rotating shaft 26 located inside the stand column 10, a rotating shaft 26 is disposed on a rotating display unit 10, a rotating device, a rotating with a rotating device, a rotating sensor 14, a rotating sensor 22, a rotating sensor is disposed on a rotating sensor 22, a deep sensor is disposed to detect a deep sensor, a deep sensor is disposed on a deep sensor, a deep sensor is disposed on a deep sensor, a deep sensor.

Specifically, the second fixed sealing ring 24 is higher than the fixed sealing ring 23, the ends of the rotating shaft 26 and the end of the second rotating shaft 25 which are positioned on the water surface are fixedly provided with rotating wheels 9, the vertical position between the second fixed sealing ring 24 and the fixed sealing ring 23 can be increased and decreased according to the height of the water level to be measured, and therefore the measuring depth of the shallow water infrared ray instrument 7 and the deep water infrared ray instrument 8 can be changed.

Specifically, the lateral surface fixed mounting of sealed connecting block 19 has fixed plate 13, the quantity of fixed plate 13 is four, and evenly install around sealed connecting block 19, side plug-in connection that sealed connecting block 19 was kept away from to fixed plate 13 has fixed iron nail 15, the top fixed mounting of fixed iron nail 15 has iron nail cap 12, the bottom fixed mounting of fixed plate 13 has fixed block 14, the quantity of fixed block 14 is four, 14 fixed mounting of fixed block are between iron nail 15 and fixed column 18, a plurality of

iron nails

15 and 14 messenger's device are more firm in the aquatic installation of fixed block.

Specifically, the th receiver 6 and the second receiver 22 are both arranged inside the upright post 10, the th receiver 6 is positioned right above the deep water infrared instrument 8, the second receiver 22 is positioned right above the shallow water infrared instrument 7, and the vertical position between the second fixed sealing ring 24 and the th fixed sealing ring 23 can be increased and decreased according to the height of the water level required to be measured, so that the depth measured by the shallow water infrared instrument 7 and the deep water infrared instrument 8 is changed.

Specifically, the bottom both sides fixed mounting of solar charging panel 4 has light 3, and the top fixed mounting of shell 1 has camera 5, and camera 5 is located the side of support column 2, and the front fixed mounting of shell 1 has LED display screen 11, and light 3 is used for throwing light on the surface of water at night, makes things convenient for camera 5 to shoot the feedback to the surface of water condition at night, and LED display screen 11 is used for showing the velocity of flow data of deep water and shallow water.

Specifically, a dangerous water level line 20 is arranged at the top of the outer surface of the upright post 10, a water level scale mark 21 is arranged below the dangerous water level line 20, and the dangerous water level line 20 and the water level scale mark 21 are used for conveniently observing the height of the water level therebetween.

The working principle is that when in use, the bottom of the upright post 10 is placed below the water surface, the underwater fixing column 18 is conveniently inserted into soil under water through the conical tip 17, then the underwater fixing column 18 is completely inserted into the soil, the underwater fixing column 18 is fixed in the soil through the anti-slip bulge 16, then the fixing block 14 is inserted into the soil, then the fixing iron nail 15 is inserted into the water through the iron nail cap 12, then the fixing block 14 and the fixing iron nail 15 are fixed through the fixing plate 13, so that the device cannot shake left and right, the interface is sealed through the fixing sealing ring 23 and the second fixing sealing ring 24 of the , river water is prevented from entering the inside of the upright post 10, when flowing water flows pass through the rotating wheel 9, the rotating wheel 9 drives the first bearing 26 and the second bearing 25 to rotate, so that the deep water infrared instrument 8 and the shallow water infrared instrument 7 respectively follow the rotating shaft 26 and the second rotating shaft 25 of the second 32 to do circular motion, then signals sent by the deep water infrared instrument 8 and the shallow water infrared instrument 7 are respectively transmitted to the second receiver 6 and the second receiver 22, then are respectively calculated through the A/D converter 27, the deep water area and the deep water area is finally transmitted to the deep water alarm display module 32, the alarm data acquisition module, the alarm module is finally transmitted to the alarm module 32, the alarm module is finally transmitted to the alarm module, the alarm module 32, the alarm module is transmitted to the alarm module, the alarm module 32, the alarm module is finally transmitted to the alarm module, the alarm module is transmitted to the alarm module.

In summary, according to the dynamic monitoring device, the -th fixed seal ring 23 and the second fixed seal ring 24 seal the interface to prevent river water from entering the interior of the upright post 10, when flowing water flows through the runner 9, the runner 9 drives the -th bearing 26 and the second bearing 25 to rotate, so that the deep-water infrared instrument 8 and the shallow-water infrared instrument 7 respectively follow the -th rotating shaft 26 and the second rotating shaft 25 to do circular motion, then signals sent by the deep-water infrared instrument 8 and the shallow-water infrared instrument 7 are respectively transmitted to the -th receiver 6 and the second receiver 22, then the water flows in deep-water and water areas are respectively calculated through the a/D converter 27, and finally displayed on the LED display screen 11 without manual measurement, thereby achieving the purposes of simple structure and accurate measurement.

And, through the bottom of the sealed stand 10 of the sealed connecting block 19, prevent that stand 10 from leaking, conveniently insert underwater earth through circular cone prong 17, then will be underwater the fixed column 18 is whole to insert in earth, it is more fixed in earth to make underwater fixed column 18 through non-slip raised 16, the stability of device has been increased, then insert in earth with fixed block 14, later insert underwater fixed iron nail 15 through iron nail cap 12, then fix fixed block 14 and fixed iron nail 15 through fixed plate 13, thereby make the device can not rock about can, increase the stability of device in aqueous, the purpose of installation facility has been reached.

It should be noted that, in this document, relational terms such as , second and the like are only used to distinguish entities or operations from another entities or operations, and no necessarily requires or implies that any such actual relationship or order exists between the entities or operations.

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

Claims

The hydraulic engineering dynamic supervision device comprises a shell (1), a stand column (10) and an underwater fixed column (18), and is characterized in that a supporting column (2) is fixedly connected to the top of the shell (1), a solar charging panel (4) is fixedly installed at the top end of the supporting column (2), the stand column (10) is fixedly connected to the bottom of the shell (1), an receiver (6) and a second receiver (22) are fixedly installed at the bottom of the shell (1), the 0 receiver (6) is located on the left side of the second receiver (22), a second fixing sealing ring (24) is embedded in the bottom of the right side of the stand column (10), a second rotating shaft (25) is slidably connected inside the second fixing sealing ring (24), a shallow water infrared instrument (7) is arranged at the end 7 of the second rotating shaft (25) located inside the stand column (10), a 56 fixing sealing ring (23) is embedded in the bottom of the left side of the stand column (10), a fixing sealing ring (23) is slidably connected with a first rotating shaft (26), a shallow water infrared instrument (26) is located at the end 7), a terminal (26), a deep water processing module (19) is electrically connected with an underwater image processing module (19), a deep water processing module (19) and an underwater processing module (18), an output end of the deep water processing module (18) is electrically connected with an underwater processing module (18) which is connected with an underwater processing module (18) and an underwater input end of the deep water processing module (18), a deep water processing module (19), a deep water processing module (18) which is connected with an underwater processing module, a deep water processing module (19), a deep water processing module (17), a deep water processing module which is connected with an underwater processing module, a deep water processing module (18) which is.
2. kind of hydraulic engineering developments supervision device of claim 1, characterized in that, the second stationary seal circle (24) is higher than stationary seal circle (23), the end that the pivot (26) and second pivot (25) lie in the surface of water all fixedly installs runner (9).
3. The kinds of hydraulic engineering developments supervision device of claim 1, wherein the lateral surface of sealed connecting block (19) is fixed with fixed plate (13), the quantity of fixed plate (13) is four, and evenly install around sealed connecting block (19), side that fixed plate (13) kept away from sealed connecting block (19) is pegged graft and is had fixed iron nail (15), the top fixed mounting of fixed iron nail (15) has iron nail cap (12), the bottom fixed mounting of fixed plate (13) has fixed block (14), the quantity of fixed block (14) is four, fixed block (14) fixed mounting is between iron nail (15) and fixed column (18).
4. kinds of dynamic supervision devices for water conservancy projects according to claim 1, characterized in that the receiver (6) and the second receiver (22) are both installed inside the vertical column (10), the receiver (6) is located right above the deep water infrared ray instrument (8), and the second receiver (22) is located right above the shallow water infrared ray instrument (7).
5. The kinds of hydraulic engineering developments supervision device of claim 1, characterized in that the bottom both sides of solar charging panel (4) are fixed with light (3), the top fixed mounting of shell (1) has camera (5), camera (5) are located side of support column (2), the front fixed mounting of shell (1) has LED display screen (11).
6. kinds of hydraulic engineering dynamic supervision device according to claim 1, characterized in that the top of the outer surface of the upright post (10) is provided with a dangerous water level line (20), and a water level scale mark (21) is arranged below the dangerous water level line (20).