CN207556591U - Automatic river monitoring device - Google Patents

Abstract

The utility model discloses automatic river monitoring devices, including concrete stake, buoy and camera, upright bar straight up is provided with above the concrete stake, buoy is provided in the upright bar, the buoy is mounted on by sliding sleeve in the upright bar, setting restraining position ring block, the spacing ring are fixedly connected with the upright bar above the buoy；Controller is provided with above the spacing ring, shaft is installed at the top of the controller, three glasss of anemobiagraphs are provided on the periphery of the shaft, camera is installed at the top of the shaft, the camera is electrically connected with the controller.Advantageous effect is：By setting the buoy in the upright bar, so as to make monitoring device when mounted, the upright bar remains vertical state, avoids carrying out righting lifting using hanging device；The camera is driven to rotate using three glasss of anemobiagraphs, you can to lower power consumption, ensure that 360 ° of circulatory monitorings of the camera.

Description

Automatic river monitoring device

Technical field

The utility model is related to water regime monitoring fields, and in particular to automatic river monitoring device.

Background technology

Regimen automatic monitoring system is suitable for water conservancy administration department and realizes water level, rainfall of long-range monitoring reservoir etc. in real time Data, that appropriate water storage and safe flood to ensure reservoir provide is accurate, timely data information.

Applicants have discovered that at least there are following technical problems in the prior art：Existing water regime monitoring system is to rain mostly Water and water level are monitored, and remote monitoring end can only receive water level and rainfall information, and not know that the tool at reservoir scene Body situation, while when reservoir discharges water, washed away, monitoring device is usually heavier to prevent monitoring device, when mounted, to protect It demonstrate,proves monitoring device and keeps vertical state, righting lifting need to be carried out, therefore difficult to install to it by large-scale Suspenoing apparatus.

Utility model content

The purpose of this utility model is that solve the above-mentioned problems and provides automatic river monitoring device, existing to solve There is in technology the clear monitoring device of water that can not realize remote image monitoring and the technical problems such as difficult to install.The utility model carries Preferred technical solution has in many technical solutions supplied：By the way that the camera is set to carry out shooting note to surrounding condition Record, while the camera is driven to rotate using three glasss of anemobiagraphs, so as to fulfill 360 ° of rotary takings, utilize when mounted The buoyancy of the buoy lifts monitoring device, so as to which it be made to keep vertical state, righting is avoided to lift, it is difficult to reduce installation The technique effects such as degree, elaboration as detailed below.

To achieve the above object, the utility model provides following technical scheme：

Automatic river monitoring device provided by the utility model, including concrete stake, buoy and camera, on the concrete stake Face is provided with upright bar straight up, and the buoy is provided in the upright bar, and the buoy is mounted on described vertical by sliding sleeve On bar, setting restraining position ring block, the spacing ring are fixedly connected with the upright bar above the buoy；

Controller is provided with above the spacing ring, shaft, the periphery of the shaft are installed at the top of the controller On be provided with three glasss of anemobiagraphs, the camera is installed, the camera is electrically connected with the controller at the top of the shaft It connects, the shaft side is provided with wireless signal transmitter, and the wireless signal transmitter is electrically connected with the controller；

The controller side is provided with rainfall detecting device, and the rainfall detecting device is electrically connected with the controller；

The back side of the controller is provided with accumulator, and the accumulator is electrically connected with the controller, the accumulator Outside be provided with solar panel, the solar panel is electrically connected with the controller；The solar panel Side-lower be provided with water level detector, the water level detector is electrically connected with the controller.

Using above-mentioned automatic river monitoring device, when mounted, by the concrete stake downward into the water, the buoy thereby The buoyancy of water is helped, the upright bar is made to keep vertical state, as the concrete stake slowly sinks, the buoy is along in the upright bar It rises, so as to which the concrete stake be made to sink under water vertically, in monitoring process, three glasss of anemobiagraphs under the action of the forces of the wind, drive So as to which the camera be driven to carry out 360 ° of rotations, Image Acquisition is carried out, and transmit to the state on periphery for the dynamic shaft rotation To the controller, acquired image information is sent to remote monitoring by the controller by the wireless signal transmitter End, while the data that the water level detector and the rainfall detecting device are detected also are sent to the controller, and pass through institute State wireless signal transmitter and be sent to monitoring client, so as to enable monitoring client in time, accurately grasp field data.

Preferably, the buoy is right-angled intersection formula, and the buoy includes several floating balls, and floating ball is circumferentially distributed on The upright bar surrounding.

Preferably, it is symmetrical arranged on the endoporus of the sliding sleeve there are two groove, and the groove is slided with the upright bar Cooperation.

Preferably, the shaft is internally provided with conducting slip ring, and the conducting slip ring upper end is electrically connected with camera, under End is electrically connected with the controller.

Preferably, the shaft bottom is mounted on by bearing on the controller housing.

Preferably, the rainfall detecting device and the water level detector are mounted on by stent in the upright bar.

Preferably, the water level detector is non-contact detector.

Advantageous effect is：1st, the utility model in the upright bar by setting the buoy, so as to make monitoring device When mounted, the upright bar remains vertical state, avoids carrying out righting lifting using hanging device；

2nd, the camera is driven to rotate using three glasss of anemobiagraphs, you can to lower power consumption, ensure that described 360 ° of circulatory monitorings of camera.

Description of the drawings

It in order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is the front view of the utility model；

Fig. 2 is the right view of the utility model；

Fig. 3 is the shift sleeve structure enlarged drawing of the utility model；

Fig. 4 is the control system block diagram of the utility model.

The reference numerals are as follows：

1st, concrete stake；2nd, upright bar；3rd, buoy；31st, sliding sleeve；32nd, groove；4th, spacing ring；5th, water level detector；6th, solar energy Solar panel；7th, accumulator；8th, camera；9th, three glasss of anemobiagraphs；10th, shaft；11st, wireless signal transmitter；12nd, controller；13、 Rainfall detecting device.

Specific embodiment

It, below will be to the technology of the utility model to make the purpose of this utility model, technical solution and advantage clearer Scheme is described in detail.Obviously, the described embodiments are only a part of the embodiments of the utility model rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not before creative work is made Obtained all other embodiment is put, belongs to the range that the utility model is protected.

Referring to shown in Fig. 1-Fig. 4, the utility model provides automatic river monitoring device, including concrete stake 1,3 and of buoy Camera 8, concrete stake 1 are provided with upright bar 2 straight up, are provided with buoy 3 in upright bar 2, buoy 3 is pacified by sliding sleeve 31 above In upright bar 2,3 top setting restraining position ring block 4 of buoy, spacing ring 4 is fixedly connected with upright bar 2, and spacing ring 4 is used to limit buoy 3 extreme higher positions risen, so as to prevent the water surface excessively high, flood controller 12；

4 top of spacing ring is provided with controller 12, and 12 top of controller is equipped with shaft 10, is set on the periphery of shaft 10 Three glasss of anemobiagraphs 9 are equipped with, the top of shaft 10 is equipped with camera 8, and camera 8 is electrically connected with controller 12,10 side of shaft Wireless signal transmitter 11 is provided with, wireless signal transmitter 11 is electrically connected with controller 12；

12 side of controller is provided with rainfall detecting device 13, and rainfall detecting device 13 is electrically connected with controller 12；

The back side of controller 12 is provided with accumulator 7, and accumulator 7 is electrically connected with controller 12, the outside setting of accumulator 7 There is solar panel 6, solar panel 6 is electrically connected with controller 12, and solar panel 6 is used to carry out using solar energy Power generation, and will be stored electronically in accumulator 7 and provide electric energy for monitoring device normal work；The side-lower of solar panel 6 is set Water level detector 5 is equipped with, water level detector 5 is electrically connected with controller 12.

Preferably, buoy 3 is right-angled intersection formula, and buoy 3 includes several floating balls, and floating ball is circumferentially distributed on upright bar 2 Surrounding, so set, convenient for improving the buoyancy of buoy 3, while prevent upright bar 2 from turning on one's side.

It is symmetrical arranged on the endoporus of sliding sleeve 31 there are two groove 32, and the groove 32 is slidably matched with upright bar 2, so sets It puts, water level detector 5 is blocked convenient for preventing buoy 3 from being rotated along upright bar 2.

Shaft 10 is internally provided with conducting slip ring, and the conducting slip ring upper end is electrically connected with camera 8, lower end and controller 12 electrical connections so set, convenient for ensureing that the camera 8 persistently rotated is connected with controller 12, realize continuously transmitting for signal.

10 bottom of shaft is mounted on by bearing on 12 shell of controller, so set, convenient for making shaft 10 that can freely turn It is dynamic.

Rainfall detecting device 13 and water level detector 5 are mounted on by stent in upright bar 2, so set, convenient for rainfall Detector 13 and water level detector 5 are fixed.

Water level detector 5 is non-contact detector, so set, can avoid water level detector 5 into the water.

Using the above structure, when mounted, by concrete stake 1 downward into the water, buoy 3 makes upright bar 2 by the buoyancy of water Vertical state is kept, as concrete stake 1 slowly sinks, buoy 3 rises along upright bar 2, so as to which concrete stake 1 be made to sink under water vertically, In monitoring process, under the action of the forces of the wind, drive shaft 10 rotates three glasss of anemobiagraphs 9, so as to which camera 8 be driven to carry out 360 ° Rotation carries out Image Acquisition, and be sent to controller 12 to the state on periphery, and controller 12 will by wireless signal transmitter 11 Acquired image information is sent to remote monitoring end, while the data that water level detector 5 and rainfall detecting device 13 are detected Controller 12 is sent to, and passes through wireless signal transmitter 11 and is sent to monitoring client, so as to which monitoring client be enable in time, accurately to slap Hold field data.

The above, only specific embodiment of the present utility model, but the scope of protection of the utility model is not limited to In this, in the technical scope that any one skilled in the art discloses in the utility model, variation can be readily occurred in Or replace, it should be covered within the scope of the utility model.Therefore, the scope of protection of the utility model should be with the power Subject to the protection domain of profit requirement.

Claims (7)

1. automatic river monitoring device, it is characterised in that：Including concrete stake（1）, buoy（3）And camera（8）, the concrete stake （1）It is provided with upright bar straight up above（2）, the upright bar（2）On be provided with the buoy（3）, the buoy（3）Pass through Sliding sleeve（31）Mounted on the upright bar（2）On, the buoy（3）Top sets restraining position ring block（4）, the spacing ring（4）With institute State upright bar（2）It is fixedly connected；

The spacing ring（4）Top is provided with controller（12）, the controller（12）Top is equipped with shaft（10）, described turn Axis（10）Periphery on be provided with three glasss of anemobiagraphs（9）, the shaft（10）Top the camera is installed（8）, institute State camera（8）With the controller（12）Electrical connection, the shaft（10）Side is provided with wireless signal transmitter（11）, institute State wireless signal transmitter（11）With the controller（12）Electrical connection；

The controller（12）Side is provided with rainfall detecting device（13）, and the rainfall detecting device（13）With the controller （12）Electrical connection；

The controller（12）The back side be provided with accumulator（7）, the accumulator（7）With the controller（12）Electrical connection, The accumulator（7）Outside be provided with solar panel（6）, the solar panel（6）With the controller（12） Electrical connection；The solar panel（6）Side-lower be provided with water level detector（5）, the water level detector（5）With it is described Controller（12）Electrical connection.

2. automatic river monitoring device according to claim 1, it is characterised in that：The buoy（3）For right-angled intersection formula, and The buoy（3）Including several floating balls, floating ball is circumferentially distributed on the upright bar（2）Surrounding.

3. automatic river monitoring device according to claim 1, it is characterised in that：The sliding sleeve（31）Endoporus on symmetrically set Groove there are two putting（32）, and the groove（32）With the upright bar（2）It is slidably matched.

4. automatic river monitoring device according to claim 1, it is characterised in that：The shaft（10）It is internally provided with conduction Slip ring, and the conducting slip ring upper end and camera（8）Electrical connection, lower end and the controller（12）Electrical connection.

5. automatic river monitoring device according to claim 1, it is characterised in that：The shaft（10）Pacified by bearing bottom Mounted in the controller（12）On shell.

6. automatic river monitoring device according to claim 1, it is characterised in that：The rainfall detecting device（13）With the water Location probe（5）The upright bar is mounted on by stent（2）On.

7. automatic river monitoring device according to claim 1, it is characterised in that：The water level detector（5）It is non-contact Formula detector.