CN111503442A

CN111503442A - Water regime monitoring data acquisition device

Info

Publication number: CN111503442A
Application number: CN202010260024.6A
Authority: CN
Inventors: 姜优辉
Original assignee: Changzhou Nongshui Cloud Service Information Technology Co ltd
Current assignee: Changzhou Nongshui Cloud Service Information Technology Co ltd
Priority date: 2020-04-03
Filing date: 2020-04-03
Publication date: 2020-08-07

Abstract

The invention relates to the field of electronic measurement, in particular to a regimen monitoring data acquisition device, which comprises a cement pile, wherein a vertical rod is vertically arranged on the cement pile, a rotatable cross rod is arranged at the upper end of the vertical rod, a first driving mechanism for driving the cross rod to rotate is arranged at the upper end of the vertical rod, and the regimen monitoring data acquisition device also comprises a movable video monitoring component connected to the cross rod; the invention designs a water regime monitoring data acquisition device which can rotate 360 degrees relative to a vertical rod by a video monitoring component and can be adjusted in height.

Description

Water regime monitoring data acquisition device

Technical Field

The invention relates to the field of electronic measurement, in particular to a water regime monitoring data acquisition device.

Background

The hydrologic monitoring is the most basic and important work in the hydrology industry, and is especially important in the annual flood season. The water content monitoring comprises the monitoring of water level, rainfall, evaporation capacity, soil moisture content, water quality, sand content, underground water and the like. At present, most of the monitoring of the water regime is fragmented, different data are displayed on different platforms, so that workers cannot conveniently check the data, certain logical relation is difficult to establish between the data, and the deeper data mining is not facilitated.

Chinese patent 201721805559.7 has disclosed an automatic water regime monitoring device, which comprises a cement pile, a buoy and a camera, wherein a vertical upright post is arranged on the cement pile, the buoy is arranged on the upright post, the buoy is mounted on the upright post through a sliding sleeve, a limit ring is arranged above the buoy, and the limit ring is fixedly connected with the upright post; the wind power generation device is characterized in that a controller is arranged above the limiting ring, a rotating shaft is installed at the top of the controller, three cups of anemometers are arranged on the outer circular surface of the rotating shaft, a camera is installed at the top of the rotating shaft, and the camera is electrically connected with the controller. The beneficial effects are that: the three-cup anemoscope is utilized to drive the camera to rotate, so that the power consumption can be reduced, and the 360-degree circular monitoring of the camera can be ensured. But this utility model installs the completion back, and the position and the height of camera can not adjust as required.

Disclosure of Invention

Aiming at the defects of the prior art, the invention designs the regimen monitoring data acquisition device with the video monitoring assembly capable of rotating 360 degrees relative to the upright stanchion and capable of being adjusted in height.

The technical scheme for solving the technical problems is as follows:

regimen monitoring data collection system, it includes the cement stake, is equipped with the pole setting on the cement stake perpendicularly, the upper end of pole setting be equipped with can rotatory horizontal pole, the upper end of pole setting is equipped with the rotatory first actuating mechanism of drive horizontal pole, still including connecting on the horizontal pole and mobilizable video monitoring subassembly.

The upper end of pole setting be equipped with the step connecting portion, the one end of horizontal pole is equipped with the sleeve pipe, on the step connecting portion was located to the sleeve pipe cover, and first actuating mechanism was the first driving motor of fixed connection in the pole setting upper end, the up end of pole setting is equipped with indent and side open-ended cavity, in first driving motor's output shaft stretched into the cavity, and be equipped with first drive gear on first driving motor's the output shaft, the intraductal wall of sleeve be equipped with first drive gear complex flank of tooth.

And a plane bearing is arranged between the bottom of the sleeve and the step connecting part.

The horizontal pole on be equipped with the second actuating mechanism that drive video monitoring subassembly removed, second actuating mechanism includes the cell body of the indent that the horizontal pole lower surface set up, the tip of horizontal pole is equipped with second driving motor, the sideslip lead screw of installation in the cell body is connected to second driving motor's output to and connect the sideslip connecting block on the sideslip lead screw, the video monitoring subassembly is connected on the sideslip connecting block.

The video monitoring subassembly include the head rod of the vertical setting of being connected with the horizontal pole, the head rod is mesoporous member, still includes the second connecting rod of clearance fit inside the head rod, the symmetry is equipped with the motion groove on the wall of the hole of head rod, be equipped with the motion tooth on the bottom surface of motion groove, the upper end of second connecting rod is equipped with two miniature drive assembly that have the drive tooth, the lower extreme at the second connecting rod is connected to the video subassembly of making a video recording.

The micro driving component is a servo driving mechanism with a speed reducing module.

The upper end of pole setting still be equipped with the mounting panel, be equipped with rainfall monitoring subassembly on the mounting panel.

The mounting panel on still be equipped with solar energy module to and be connected with solar energy module be used for the battery pack of storage electric energy.

In conclusion, the invention has the following beneficial effects:

the invention realizes the rotation of the cross rod relative to the upright rod through the first driving mechanism, thereby driving the video monitoring assembly connected to the cross rod to rotate for 360 degrees, further enabling the video monitoring assembly to carry out the video monitoring of the water regime in an all-around way, and feeding back the real situation of the water regime more accurately.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

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

FIG. 2 is a schematic interface view of a cross bar;

FIG. 3 is a schematic view of the upper end of the vertical pole;

FIG. 4 is an enlarged schematic view of A of FIG. 1;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly and clearly understood, the technical solutions in the embodiments of the present invention will be described below in detail and completely with reference to the accompanying drawings and the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 4, regimen monitoring data acquisition device, it includes cement stake 1, is equipped with pole setting 2 on the cement stake 1 perpendicularly, the upper end of pole setting 2 be equipped with horizontal pole 3 that can rotate, the upper end of pole setting is equipped with the rotatory first actuating mechanism 4 of drive horizontal pole, still including connecting on horizontal pole 3 and mobilizable video monitoring subassembly 5.

According to the invention, the first driving mechanism drives the cross rod to rotate 360 degrees relative to the vertical rod, so that the video monitoring assembly rotates 360 degrees, the video monitoring assembly can comprehensively collect the conditions around the water regime monitoring data acquisition device without dead angles, and the integrity and reliability of data are ensured.

The upper end of pole setting 2 be equipped with step connecting portion 20, the one end of horizontal pole 3 is equipped with sleeve pipe 30, and sleeve pipe 30 cover is located on step connecting portion 20, and first actuating mechanism 4 is the first driving motor 40 of fixed connection in the pole setting upper end, the up end of pole setting 2 is equipped with indent and side open-ended cavity 21, and in first driving motor 40's output shaft stretched into cavity 21, and be equipped with first drive gear 41 on first driving motor 40's the output shaft, sleeve pipe 30 inner wall be equipped with first drive gear complex flank of tooth, drive first drive gear through first driving motor in this embodiment and rotate, first drive gear and the meshing of the flank of tooth of intraductal wall of cover to drive the sleeve pipe and rotate, realize then that the horizontal pole rotates for the pole setting.

The flat bearing 42 is arranged between the bottom of the sleeve 30 and the step connecting part 20, and the friction between the sleeve and the vertical rod in the rotating process can be reduced by the flat bearing, so that the rotation is convenient to realize, and the reduction of the power of the first driving motor is also facilitated.

The video monitoring device is characterized in that a second driving mechanism 31 for driving the video monitoring assembly to move is arranged on the cross rod 3, the second driving mechanism 31 comprises a concave groove body 310 arranged on the lower surface of the cross rod, a second driving motor 311 is arranged at the end part of the cross rod 3, the output end of the second driving motor 311 is connected with a transverse moving screw rod 312 arranged in the groove body and a transverse moving connecting block 313 connected to the transverse moving screw rod, the video monitoring assembly 5 is connected onto the transverse moving connecting block, and the video monitoring assembly is driven by the second driving mechanism to move on the cross rod, so that the horizontal position of the video monitoring assembly is adjusted.

Video monitoring subassembly 5 include the head rod 50 of the vertical setting of being connected with the horizontal pole, head rod 50 is mesoporous member, still includes the second connecting rod 51 of clearance fit inside head rod 50, the symmetry is equipped with motion groove 501 on the wall of head rod 50's hole, be equipped with the motion tooth on the bottom surface of motion groove 501, the upper end of second connecting rod 51 is equipped with two miniature drive assembly 52 that have the drive tooth, and video camera subassembly 53 connects the lower extreme at the second connecting rod. The up-and-down movement of the second connecting rod on the first connecting rod is realized through the matching of the micro driving assembly and the moving teeth, and the up-and-down adjustment of the video camera assembly is realized.

The micro driving assembly 52 is a servo driving mechanism with a speed reducing module.

The upper end of the upright rod 2 is also provided with a mounting plate 22, and the mounting plate 22 is provided with a rainfall monitoring assembly 23.

The mounting plate 22 is further provided with a solar module 24 and a battery assembly connected with the solar module and used for storing electric energy.

In conclusion, the invention has the following beneficial effects:

Claims

1. Regimen monitoring data collection system, it includes the cement stake, is equipped with pole setting, its characterized in that perpendicularly on the cement stake: the upper end of pole setting be equipped with the horizontal pole that can rotate, the upper end of pole setting is equipped with the rotatory first actuating mechanism of drive horizontal pole, still including connecting on the horizontal pole and mobilizable video monitoring subassembly.

2. The regimen monitoring data acquisition device of claim 1, wherein: the upper end of pole setting be equipped with the step connecting portion, the one end of horizontal pole is equipped with the sleeve pipe, on the step connecting portion was located to the sleeve pipe cover, and first actuating mechanism was the first driving motor of fixed connection in the pole setting upper end, the up end of pole setting is equipped with indent and side open-ended cavity, in first driving motor's output shaft stretched into the cavity, and be equipped with first drive gear on first driving motor's the output shaft, the intraductal wall of sleeve be equipped with first drive gear complex flank of tooth.

3. The regimen monitoring data acquisition device of claim 2, wherein: and a plane bearing is arranged between the bottom of the sleeve and the step connecting part.

4. The regimen monitoring data acquisition device of claim 1, wherein: the horizontal pole on be equipped with the second actuating mechanism that drive video monitoring subassembly removed, second actuating mechanism includes the cell body of the indent that the horizontal pole lower surface set up, the tip of horizontal pole is equipped with second driving motor, the sideslip lead screw of installation in the cell body is connected to second driving motor's output to and connect the sideslip connecting block on the sideslip lead screw, the video monitoring subassembly is connected on the sideslip connecting block.

5. The regimen monitoring data acquisition device of any one of claims 1 or 4, wherein: the video monitoring subassembly include the head rod of the vertical setting of being connected with the horizontal pole, the head rod is mesoporous member, still includes the second connecting rod of clearance fit inside the head rod, the symmetry is equipped with the motion groove on the wall of the hole of head rod, be equipped with the motion tooth on the bottom surface of motion groove, the upper end of second connecting rod is equipped with two miniature drive assembly that have the driving tooth.

6. The regimen monitoring data acquisition device of claim 5, wherein: the micro driving component is a servo driving mechanism with a speed reducing module.

7. The regimen monitoring data acquisition device of claim 1, wherein: the upper end of pole setting still be equipped with the mounting panel, be equipped with rainfall monitoring subassembly on the mounting panel.

8. The regimen monitoring data acquisition device of claim 7, wherein: the mounting panel on still be equipped with solar energy module to and be connected with solar energy module be used for the battery pack of storage electric energy.