CN209727917U - Solar energy ammonia nitrogen detector - Google Patents
Solar energy ammonia nitrogen detector Download PDFInfo
- Publication number
- CN209727917U CN209727917U CN201920229578.2U CN201920229578U CN209727917U CN 209727917 U CN209727917 U CN 209727917U CN 201920229578 U CN201920229578 U CN 201920229578U CN 209727917 U CN209727917 U CN 209727917U
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- China
- Prior art keywords
- boxboard
- ammonia nitrogen
- nitrogen detector
- side box
- box plate
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Abstract
The utility model discloses a kind of solar energy ammonia nitrogen detector, including satellite positioning module, remote wireless communication module, microprocessor, ammonia nitrogen detector, rechargeable battery, solar panel and peristaltic pump, satellite positioning module, ammonia nitrogen detector and peristaltic pump are connect with microprocessor communication respectively, and microprocessor is communicated to connect by remote wireless communication module and host computer;Solar panel is electrically connected respectively by solar charging discharging controller with rechargeable battery and microprocessor, solar panel and rechargeable battery passes through solar charging discharging controller respectively and inverter is electrically connected with peristaltic pump;The outlet end of peristaltic pump and the liquid feeding end fluid communication of ammonia nitrogen detector connect.The utility model can carry out continuous monitoring to waters ammonia-nitrogen content, be laid with power supply line without additional, and device location monitoring data can be matched, the data of unwatched equipment monitoring is avoided not to be inconsistent with equipment physical location.
Description
Technical field
The utility model relates to water quality inspection technique fields.Specifically a kind of solar energy ammonia nitrogen detector.
Background technique
Ammonia-nitrogen content monitoring is a kind of important monitoring in water quality monitoring in water, to the degree to water eutrophication into
Row monitoring.Ammonia-nitrogen content monitoring usually requires to be sampled water body and detect sample, to obtain the ammonia nitrogen in water body
Content, however for the water body for being inconvenient to sample, it can only be inspected by random samples, it can not be timely to water body ammonia-nitrogen content situation of change
It grasps, this, which will result in the water body eutrophication degree for being inconvenient to sample, can accumulate uppity degree.Existing ammonia nitrogen
Content monitoring device needs testing staff to operate although live can detect to the ammonia-nitrogen content of water body, and
And in unwatched waters, position change can occur because of water flow or wind-force for existing ammonia-nitrogen content monitoring device
Change, so that monitoring point and monitoring data mismatch.
Utility model content
For this purpose, the technical problem to be solved by the utility model is to provide one kind can connect to waters ammonia-nitrogen content
The solar energy ammonia nitrogen detector of continuous property monitoring is laid with power supply line without additional, and can by device location monitoring data into
Row matching, avoids the data of unwatched equipment monitoring from not being inconsistent with equipment physical location.
In order to solve the above technical problems, the utility model provides the following technical solutions:
Solar energy ammonia nitrogen detector, including the detection of satellite positioning module, remote wireless communication module, microprocessor, ammonia nitrogen
Device, rechargeable battery, solar panel and peristaltic pump, the satellite positioning module, the ammonia nitrogen detector and the wriggling
Pump is connect with the microprocessor communication respectively, and the microprocessor is communicated by the remote wireless communication module with host computer
Connection;The solar panel by solar charging discharging controller respectively with the rechargeable battery and the microprocessor
Electrical connection, the solar panel and the rechargeable battery pass through the solar charging discharging controller and inverter respectively
It is electrically connected with the peristaltic pump;The liquid outlet of the peristaltic pump is connect with the inlet fluid communication of the ammonia nitrogen detector.Its
In, the environment that the remote wireless communication module can be placed according to the utility model uses the different remote radio communications
Module, such as GPRS communication module, 3G communication module, 4G communication module or satellite communication module kind any one;And institute
State satellite positioning module can also according to use the complexity of positioning system using GPS positioning module, Beidou positioning module, lattice
One of Luo Nasi locating module and Galileo locating module, since GPS positioning system is using relatively broad, preferential use
GPS positioning module.
Above-mentioned solar energy ammonia nitrogen detector, the satellite positioning module, the remote communication module and the microprocessor
It is separately mounted on circuit board, the circuit board and the rechargeable battery are separately mounted in the closed chamber of flotation tank;It is described
Solar panel is mounted on the flotation tank on the upper face of boxboard;The test side of the ammonia nitrogen detector is located at the drift
Outside the closed chamber of buoyancy tank.
Above-mentioned solar energy ammonia nitrogen detector, the flotation tank include the first side box plate, the second side box plate, third side box plate,
4th side box plate, the upper boxboard, middle boxboard and lower boxboard, first side box plate, second side box plate, the third side
Boxboard and the 4th side box plate successively join end to end and surround hollow quadrangular;The upper boxboard is mounted on the hollow quadrangular
Upper end and the closed chamber is surrounded with the middle boxboard being arranged in the hollow quadrangular cavity, under the hollow quadrangular
End is mounted on the upper face of the lower boxboard.
The lower end of above-mentioned solar energy ammonia nitrogen detector, the lower end of first side box plate and the third side box plate is set respectively
There is through flow hole, the through flow hole is connected to the cavity between the middle boxboard and the lower boxboard;It is set in the through flow hole
There is strainer;The outlet end of the ammonia nitrogen detector is arranged in the cavity between the middle boxboard and the lower boxboard;Institute
State that peristaltic pump is mounted on the flotation tank and the liquid feeding end of the peristaltic pump is arranged in the middle boxboard and the nowel
In cavity between plate.
Above-mentioned solar energy ammonia nitrogen detector is set on the lower boxboard there are two deflector, two deflectors and described
Lower boxboard surrounds diversion trench, and the diversion trench is connect with the through flow hole fluid communication;The test side of the ammonia nitrogen detector and
The water inlet and water outlet of the peristaltic pump are separately positioned in the diversion trench.
Above-mentioned solar energy ammonia nitrogen detector, the solar panel are mounted on the mounting groove on the upper boxboard upper face
It is interior, transparent sealing lid is installed on the mounting groove.
Above-mentioned solar energy ammonia nitrogen detector, first side box plate, second side box plate, the third side box plate, institute
Stating the 4th side box plate, the middle boxboard and the upper boxboard includes interior boxboard and outer boxboard, is set on the inner wall of the outer boxboard
Fluted, the interior boxboard is equipped with protrusion;When the outer boxboard interior plate face is fixedly connected with plate face on the outside of the interior boxboard,
The protrusion setting is equipped with gap in the groove and between the protruding apex and the groove slot bottom, is located at the protrusion
Place the interior boxboard and surround closed cavity positioned at the outer boxboard of the groove.
The technical solution of the utility model achieves following beneficial technical effect:
Equipment can be made in unpowered 1. the utility model is powered using solar panel and rechargeable battery
It continues working under environment, is monitored convenient for the ammonia-nitrogen content to outlying district water body.
2. device location information is uploaded to host computer using satellite positioning module and remote communication module by the utility model,
It is more exact so as to have to water body ammonia-nitrogen content convenient for being matched to by device location information with water body ammonia-nitrogen content
Understand.
Detailed description of the invention
Fig. 1 is the working principle diagram of the utility model solar energy ammonia nitrogen detector;
Fig. 2 is the structural representation of the utility model solar energy ammonia nitrogen detector (not including peristaltic pump and ammonia nitrogen detector)
Figure;
Fig. 3 is the structural schematic diagram of the utility model solar energy ammonia nitrogen detector (comprising peristaltic pump and ammonia nitrogen detector).
Appended drawing reference indicates in figure are as follows: 1- flotation tank;The upper boxboard of 2-;Boxboard under 3-;The second side box plate of 4-;The 4th side case of 5-
Plate;6- solar panel;7- transparent sealing lid;8- rechargeable battery;9- circuit board;10- strainer;11- deflector;Outside 12-
Boxboard;Boxboard in 13-;14- protrusion;15- groove;The first side box plate of 16-;17- third side box plate;18- through flow hole;19- is wriggled
Pump;20- ammonia nitrogen detector;Boxboard in 21-.
Specific embodiment
As shown in Figures 1 to 3, the utility model solar energy ammonia nitrogen detector, including satellite positioning module, remote radio communication
Module, microprocessor, ammonia nitrogen detector 20, rechargeable battery 8 and solar panel 6, the satellite positioning module and described
Ammonia nitrogen detector 20 is connect with the microprocessor communication respectively, the microprocessor by the remote wireless communication module with
Host computer communication connection;The microprocessor is electrically connected with the rechargeable battery 8 and the solar panel 6 respectively, institute
Solar panel 6 is stated to be electrically connected by solar charging discharging controller with the rechargeable battery 8.Wherein, the long-range nothing
The environment that line communication module can be placed according to the utility model uses the different remote wireless communication modules, as GPRS is logical
Believe any one of the kinds such as module, 3G communication module, 4G communication module or satellite communication module, preferably satellite communication module,
To guarantee the normal communication of communication base station equipment failure or the utility model without communication base station area;And the satellite positioning
Module can also be according to using the complexity of positioning system to position using GPS positioning module, Beidou positioning module, GLONASS
One of module and Galileo locating module preferentially use GPS positioning mould since GPS positioning system is using relatively broad
Block;The microprocessor uses STM32F4 single-chip microcontroller.
For the ease of being detected to the stronger surface water ammonia-nitrogen content of mobility, in the present embodiment, defended described
Star locating module, the remote communication module and the microprocessor are separately mounted on circuit board 9, the circuit board 9 and institute
Rechargeable battery 8 is stated to be separately mounted in the closed chamber of flotation tank 1;The solar panel 6 is mounted on the flotation tank 1
On the upper face of boxboard 2;The test side of the ammonia nitrogen detector 20 is located at outside the closed chamber of the flotation tank 1;The utility model
Satellite communication module antenna and GPS positioning module be arranged on the flotation tank 1 on boxboard 2 with antenna.Wherein, described
Flotation tank 1 includes the first side box plate 16, the second side box plate 4, third side box plate 17, the 4th side box plate 5, the upper boxboard 2, raising middle flask
Plate 21 and lower boxboard 3, first side box plate 16, second side box plate 4, the third side box plate 17 and the 4th side case
Plate 5, which successively joins end to end, surrounds hollow quadrangular;The upper boxboard 2 is mounted on the hollow quadrangular upper end and with setting in institute
State the middle boxboard 21 in hollow quadrangular cavity and surround the closed chamber, the hollow quadrangular lower end be mounted on it is described under
On the upper face of boxboard 3.And the influence in order to avoid water fluctuation (when having ripple or wave if any the water surface) to detection,
Through flow hole 18, the through flow hole 18 are respectively equipped in the lower end of first side box plate 16 and the lower end of the third side box plate 17
It is connected to the cavity between the middle boxboard 21 and the lower boxboard 3;Simultaneously in order to avoid in water suspending sundries to water body
The influence of ammonia-nitrogen content detection, is equipped with strainer 10 in the through flow hole 18;The test side setting of the ammonia nitrogen detector 20 exists
In cavity between the middle boxboard 21 and the lower boxboard 3;Peristaltic pump 19 is installed on the flotation tank 1, it is described compacted
The water inlet end of dynamic pump 19 and water outlet are separately positioned in the cavity between the middle boxboard 21 and the lower boxboard 3;Institute
Peristaltic pump 19 is stated to be electrically connected by inverter with the solar charging discharging controller.And it is located at the middle boxboard 21 to reduce
Cavity between the lower boxboard 3 has long-term ponding, also sets on the lower boxboard 3 there are two deflector 11, two institutes
It states deflector 11 and the lower boxboard 3 surrounds diversion trench, the diversion trench is connect with 18 fluid communication of through flow hole, Er Qiesuo
It states the test side of ammonia nitrogen detector 20 and the water inlet of the peristaltic pump 19 and water outlet is separately positioned in the diversion trench, this
It is flowing water body that sample, which is conducive to the water body in diversion trench,.
In order to improve the utility model Electrical Safety, avoid because short circuit causes equipment to break down, the present embodiment
In, the solar panel 6 is mounted in the mounting groove on 2 upper face of upper boxboard, is equipped on the mounting groove
Transparent sealing lid 7.
And in order to guarantee the floating capacity of the flotation tank 1, while guaranteeing 1 impact resistant capability of flotation tank, avoid institute
1 cabinet of flotation tank is stated to bump against rock and biggish deformation occurs, in the present embodiment, first side box plate 16, described second side
Boxboard 4, the third side box plate 17, the 4th side box plate 5, the middle boxboard 21 and the upper boxboard 2 include interior boxboard
13 and outer boxboard 12, the inner wall of the outer boxboard 12 is equipped with groove 15, and the interior boxboard 13 is equipped with protrusion 14;The outer container
When 12 inside plate face of plate is fixedly connected with the interior 13 outside plate face of boxboard, described raised 14 are arranged in the groove 15 and institute
It states between raised 14 tops and 15 slot bottom of the groove the interior boxboard 13 equipped with gap, at described raised 14 and is located at
The outer boxboard 12 at the groove 15 surrounds closed cavity.Impact energy not only can be absorbed in the groove 15, can be with
Improve the elastic deformation ability of the outer boxboard 12, it can shape by a relatively large margin occurs for the outer boxboard 12 for making to be knocked place
Become, to form buffering to hitting, and the bend resistance intensity that described raised 14 then not only can be enhanced the interior boxboard 13, simultaneously also
Displacement buffering can be formed to shock of the point at the groove 15 is hit, i.e., when 1 side box plate of flotation tank is knocked,
Once the deformation quantity for the outer boxboard 12 being located at the groove 15 makes 15 slot bottom of groove touch described raised 14,
It then will push the interior boxboard 13 to move relative to the outer boxboard 12, and then form a degree of buffering, avoid described
Electronic component in closed chamber is impaired.
When the utility model is used, the utility model is placed in waters to be monitored, can be fixed, it can also be with
It is not fixed, then connects operating circuit, open equipment and be monitored, and the utility model and host computer are communicatively coupled,
As monitoring center's computer is communicatively coupled, thus water body ammonia-nitrogen content can remotely be supervised in monitoring center
It surveys, while the data that can be will test and water body ammonia-nitrogen content carry out pair record, are good for the environment personnel in this way to water body ammonia
Nitrogen content has accurate understanding, avoids the actually detected position of equipment and initial position from not being inconsistent bring data deviation, in turn
Misjudgment caused by avoiding because of data deviation.
Obviously, the above embodiments are merely examples for clarifying the description, and does not limit the embodiments.It is right
For those of ordinary skill in the art, can also make on the basis of the above description it is other it is various forms of variation or
It changes.There is no necessity and possibility to exhaust all the enbodiments.And it is extended from this it is obvious variation or
It changes among still in present patent application scope of protection of the claims.
Claims (7)
1. solar energy ammonia nitrogen detector, which is characterized in that including satellite positioning module, remote wireless communication module, microprocessor,
Ammonia nitrogen detector (20), rechargeable battery (8), solar panel (6) and peristaltic pump (19), the satellite positioning module, institute
It states ammonia nitrogen detector (20) and the peristaltic pump (19) is connect with the microprocessor communication respectively, the microprocessor passes through institute
It states remote wireless communication module and host computer communicates to connect;The solar panel (6) passes through solar charging discharging controller
It is electrically connected respectively with the rechargeable battery (8) and the microprocessor, the solar panel (6) and the chargeable electricity
Pond (8) is electrically connected by the solar charging discharging controller and inverter with the peristaltic pump (19) respectively;The peristaltic pump
(19) outlet end is connect with the liquid feeding end fluid communication of the ammonia nitrogen detector (20).
2. solar energy ammonia nitrogen detector according to claim 1, which is characterized in that the satellite positioning module, described remote
Journey wireless communication module and the microprocessor are separately mounted on circuit board (9), the circuit board (9) and the chargeable electricity
Pond (8) is separately mounted in the closed chamber of flotation tank (1);The solar panel (6) is mounted on the flotation tank (1) top box
On the upper face of plate (2);The test side of the ammonia nitrogen detector (20) is located at outside the closed chamber of the flotation tank (1).
3. solar energy ammonia nitrogen detector according to claim 2, which is characterized in that the flotation tank (1) includes the first side
Boxboard (16), the second side box plate (4), third side box plate (17), the 4th side box plate (5), the upper boxboard (2), middle boxboard (21)
With lower boxboard (3), first side box plate (16), second side box plate (4), the third side box plate (17) and the described 4th
Side box plate (5), which successively joins end to end, surrounds hollow quadrangular;The upper boxboard (2) be mounted on the hollow quadrangular upper end and with
The middle boxboard (21) being arranged in the hollow quadrangular cavity surrounds the closed chamber, the hollow quadrangular lower end peace
On the upper face of the lower boxboard (3).
4. solar energy ammonia nitrogen detector according to claim 3, which is characterized in that the lower end of first side box plate (16)
Be respectively equipped with through flow hole (18) with the lower end of the third side box plate (17), the through flow hole (18) be located at the middle boxboard
(21) the cavity connection between the lower boxboard (3);Strainer (10) are equipped in the through flow hole (18);The ammonia nitrogen detector
(20) outlet end is arranged in the cavity between the middle boxboard (21) and the lower boxboard (3);The peristaltic pump
(19) it is mounted on the flotation tank (1) and the liquid feeding end of the peristaltic pump (19) is arranged in the middle boxboard (21) and institute
It states in the cavity between lower boxboard (3).
5. solar energy ammonia nitrogen detector according to claim 4, which is characterized in that there are two being set on the lower boxboard (3)
Deflector (11), two deflectors (11) and the lower boxboard (3) surround diversion trench, the diversion trench and the through flow hole
(18) fluid communication connects;The test side of the ammonia nitrogen detector (20) and the water inlet of the peristaltic pump (19) and water outlet point
It She Zhi not be in the diversion trench.
6. solar energy ammonia nitrogen detector according to claim 5, which is characterized in that solar panel (6) installation
In the mounting groove on upper boxboard (2) upper face, transparent sealing lid (7) are installed on the mounting groove.
7. according to any solar energy ammonia nitrogen detector of claim 3~6, which is characterized in that first side box plate
(16), second side box plate (4), the third side box plate (17), the 4th side box plate (5), the middle boxboard (21) and
The upper boxboard (2) includes interior boxboard (13) and outer boxboard (12), and the inner wall of the outer boxboard (12) is equipped with groove (15),
The interior boxboard (13) is equipped with raised (14);Plate face and interior boxboard (13) the outside plate face are solid on the inside of the outer boxboard (12)
When connecting surely, protrusion (14) setting interior and described protrusion (14) top and the groove (15) slot bottom in the groove (15)
Between be equipped with gap, the outer container for being located at the interior boxboard (13) at raised (14) and being located at the groove (15)
Plate (12) surrounds closed cavity.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920229578.2U CN209727917U (en) | 2019-02-22 | 2019-02-22 | Solar energy ammonia nitrogen detector |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920229578.2U CN209727917U (en) | 2019-02-22 | 2019-02-22 | Solar energy ammonia nitrogen detector |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209727917U true CN209727917U (en) | 2019-12-03 |
Family
ID=68683938
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201920229578.2U Expired - Fee Related CN209727917U (en) | 2019-02-22 | 2019-02-22 | Solar energy ammonia nitrogen detector |
Country Status (1)
Country | Link |
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CN (1) | CN209727917U (en) |
-
2019
- 2019-02-22 CN CN201920229578.2U patent/CN209727917U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20191203 Termination date: 20210222 |