Background technology
Relatively large-scale build of water quality online auto monitoring at home starts from the late 20th century, the form master of construction
If using application monitoring land used, building fixed and permanent automatic monitor station room, technology path is the sensor of Introduced From Abroad
Real-time continuous monitoring and the remote monitoring of water quality are realized in the automatic monitoring for implementing surface water quality with analytical instrument, build mesh
Mark is the timely water quality condition for grasping main river emphasis section water body, and early-warning and predicting is great or basin-wide water pollution accident,
The water pollution accident dispute of spanning different districts is solved, overall control system implementation of conditions are supervised.
Existing float type monitoring device built-in monitoring sensor, such as multi-parameter water-quality instrument, supplying cell and data acquisition
Instrument, solar electric power supply system and antenna, are integrated in one, and multi-drop arrangement, real time on-line monitoring, but existing prison may be implemented
It is poor to survey stability of the buoy in water body, is affected by natural cause, can be toppled under the action of wind-force and flow, it can not
Stablize and water quality is monitored in predetermined water quality monitoring region, thus make troubles water quality monitoring, therefore, it is necessary to be changed
Into.
Invention content
In view of the technical drawbacks of the prior art, it is an object of the present invention to provide a kind of water quality indicator buoys.
The technical solution adopted to achieve the purpose of the present invention is:
A kind of water quality indicator buoy, including buoy ontology and the solar cell installation on the buoy ontology
Holder, navigation light, antenna, the buoy ontology are the structure of cylindrical tube shape, battery are equipped in the buoy ontology, data acquire
The upper end of instrument and charging-discharging controller, the buoy ontology is installed by the solar cell mounting bracket, the antenna installation
At the top of the solar cell mounting bracket, the navigation light is fixed on the top of solar cell mounting bracket, described
The bottom centre of buoy ontology is equipped with clump weight, is evenly arranged in the axial direction in the buoy ontology and is equipped with multiple water quality
The bottom of multi-parameter instrument, the multi-parameter water-quality instrument connects sheath, is formed in the axial direction on the lower part body of the sheath
Multiple strip water holes being evenly arranged.
There is the buoy ontology upper cover and lower cover, the underrun connecting rod of the lower cover to connect clump weight.
The connecting rod is that threaded connection or pin are connect with the clump weight, and the connecting rod is welding with the lower cover
Connection.
The upper cover is welded to connect with the solar battery bracket.
The multi-parameter water-quality instrument is three, is uniformly inserted into the buoy ontology and welds company with the buoy ontology
It connects.
The upper cover and lower cover are connect with buoy ontology using screw.
Water quality indicator buoy of the present invention, by above technical scheme so that it can which buoyancy carries out water quality monitoring on the water surface,
And due to using clump weight to design in structure, coordinate the installation of multiple multi-parameter water-quality instrument so that buoy can be more stable
Swim in and carry out water quality monitoring on the water surface, stability is strong.
Specific implementation mode
The present invention is described in further detail below in conjunction with the drawings and specific embodiments.It should be appreciated that described herein
Specific embodiment be only used to explain the present invention, be not intended to limit the present invention.
Referring to shown in Fig. 1-5, a kind of water quality indicator buoy, including buoy ontology 3 and on the buoy ontology
Solar cell mounting bracket 1, navigation light 8 (LED navigation lights), antenna 7, the buoy ontology be cylindrical tube shape structure,
Battery 10, data collecting instrument 9 and charging-discharging controller 11 are equipped in the buoy ontology, the upper end of the buoy ontology is installed
The solar cell mounting bracket, the antenna are mounted on the top of the solar cell mounting bracket, the navigation light
It is fixed on the top of solar cell mounting bracket, the bottom centre of the buoy ontology is equipped with the clump weight 6 of cylindrical shape,
It is evenly arranged in the axial direction in the buoy ontology and multiple multi-parameter water-quality instrument 12 is installed, outside the multi-parameter water-quality instrument
The bottom of cylinder 13 connects sheath 5, and multiple strips being evenly arranged are formed in the axial direction on the lower part body of the sheath
Water hole 51.
Wherein, the data collecting instrument is connect with antenna, and with the water quality in multi-parameter water-quality instrument outer barrel 13
Multi-parameter instrument 12 is connected, and realizes that being transmitted to reception by antenna after handling the water quality data that multi-parameter water-quality instrument 12 acquires sets
It is standby, realize the transmission of teledata.
The battery is data collecting instrument 9, multi-parameter water-quality instrument 12, the power supply of navigation light 8, and the charging-discharging controller 11 will
Solar energy is converted to electric energy and charges for battery, and the battery is accumulator, and the sun is installed in the solar cell mounting bracket
Energy battery analysis, the solar panel are connect with charging-discharging controller, and charging-discharging controller connects battery, and passes through electricity of powering
Road connects data collecting instrument, multi-parameter water-quality instrument 12, navigation light, wherein the solar panel connects with charging-discharging controller
It connects and converts the solar into electric energy, charge the battery, by battery be load supplying be the prior art, the present invention is to its circuit structure
It will not be described, can directly use existing solar photovoltaic powered systems technology to realize.
The solar cell mounting bracket is that aluminium closes frame frame, and shape is arranged by triangular shape by three vertical supporting rods
At for the structure-steel framing that a section is triangular shape, for tool there are three facade, upper and lower side distinguishes triangle, can on each facade
One piece of solar panel is installed, navigation light is fixed in the triangle of the upper end, the upper end of solar cell mounting bracket
The position at three angles of triangle, which is separately connected, fixes an inclined connecting rod inwardly, the upper end connection of three connecting rods
There is an antenna that tablet is installed, with the fixed antenna of installation, wherein the antenna is 4G antennas.
Wherein, multi-parameter water-quality instrument 12 is installed, the water quality is joined more in the outer barrel 13 of the multi-parameter water-quality instrument
The top closure of the outer barrel 13 of number instrument, lower end have connecting flange 131, pass through the flange portion spiral shell of connecting flange 131 and sheath 5
Nail is connected, and the upper end of the multi-parameter water-quality instrument and outer barrel 13 is above the upper surface of buoy ontology, the connecting flange of lower end
131 are higher by the lower face of buoy ontology, and the outer barrel 13 of the multi-parameter water-quality instrument is circular cylinder, from the upper end of the buoy ontology
It is mounted in buoy ontology, the top of multi-parameter water-quality instrument 12 and the outer barrel 13 of the multi-parameter water-quality instrument across to lower end
The head cover of upper end closed is fixedly connected, wherein multi-parameter water-quality instrument 12 and the outer barrel 13 of multi-parameter water-quality instrument are an integral structure.
Wherein, there is the buoy ontology upper cover 2 and lower cover 4, the underrun connecting rod 14 of the lower cover to connect counterweight
Block 6.
Wherein, the connecting rod 14 is to be threadedly coupled or be connected using pin 62 with the connection art 61 of the clump weight
It connects, the connecting rod is to be welded to connect, and finished filming on the outside equipped with reinforcement with the lower cover 4 by the connecting plate 141 at the top of it
Triangle strength plate, as shown in Figure 4.
Wherein, the upper cover is welded to connect with the solar battery bracket.
Preferably, in the present invention, the multi-parameter water-quality instrument is three, and the buoy is uniformly inserted by its outer barrel
It is welded to connect in ontology and with the buoy ontology.
Wherein, the upper cover and lower cover are connect with buoy ontology using screw.In the present invention, the buoy ontology it is upper
Portion is formed as cone-shaped structure, i.e. section is isosceles trapezoid shape structure, coordinates clump weight, more can be to realize stable swim in
Water general work.
Water quality indicator buoy of the present invention, by above technical scheme so that it can which buoyancy carries out water quality monitoring on the water surface,
And due to using clump weight to design in structure, coordinate the installation of multiple multi-parameter water-quality instrument so that buoy can be more stable
Swim in and carry out water quality monitoring on the water surface, stability is strong.
The above is only a preferred embodiment of the present invention, it is noted that for the common skill of the art
For art personnel, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications
Also it should be regarded as protection scope of the present invention.