CN219108511U - Green intelligent monitoring device of quality of water - Google Patents
Green intelligent monitoring device of quality of water Download PDFInfo
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- CN219108511U CN219108511U CN202223538266.0U CN202223538266U CN219108511U CN 219108511 U CN219108511 U CN 219108511U CN 202223538266 U CN202223538266 U CN 202223538266U CN 219108511 U CN219108511 U CN 219108511U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/20—Controlling water pollution; Waste water treatment
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Abstract
The utility model discloses a green intelligent water quality monitoring device, which relates to the technical field of water quality monitoring and aims to solve the problems that the existing water quality monitoring device has single function, the monitored numerical value cannot comprehensively reflect the condition of the whole aquaculture water quality, and the practicability and the functionality are both to be improved, and the technical scheme is characterized in that the intelligent water quality monitoring device comprises a buoyancy tank, and is characterized in that: the floating box is characterized in that a through hole is formed in the position of a center shaft of the floating box, a screw rod penetrates through the through hole, one end of the screw rod is fixedly connected with a mounting tube seat, a plurality of mounting holes are formed in the outer surface of the mounting tube seat, and a pH value sensor, a dissolved oxygen sensor, a chemical oxygen demand sensor, an ammonia nitrogen sensor and a turbidity sensor are fixedly mounted in the mounting holes respectively. The effect that the oxygenation operation can be carried out on the water quality while the water quality is monitored and the actual condition of the water quality can be more comprehensively represented is achieved.
Description
Technical Field
The utility model relates to the technical field of water quality monitoring, in particular to a green intelligent water quality monitoring device.
Background
In the field of modern aquaculture, the water quality condition determines the growth of aquatic products, and along with the continuous development of the aquaculture technology, more and more farmers monitor the water quality of the aquaculture area by adopting a water quality monitoring device, so that the water quality condition is improved in time, and the stable growth of the aquatic products is ensured.
The existing water quality monitoring device has single function, the monitored numerical value cannot comprehensively reflect the condition of the whole aquaculture water quality, and the practicability and the functionality are to be improved.
Disclosure of Invention
The utility model aims to provide a green intelligent water quality monitoring device which can realize the oxygenation operation on water quality while monitoring the water quality and can more comprehensively show the actual condition of the water quality.
In order to achieve the above purpose, the present utility model provides the following technical solutions:
the utility model provides a green intelligent monitoring device of quality of water, includes the buoyancy tank, its characterized in that: the utility model discloses a water diversion device, including the flotation tank, the bottom bracket, the installation tube seat, the inside of flotation tank, the axis position department of flotation tank is provided with the through-hole, and the inside of through-hole runs through there is the screw rod, the one end fixedly connected with installation tube seat of screw rod, be provided with a plurality of mounting holes on the surface of installation tube seat, and the inside of mounting hole is fixed mounting respectively has pH valve sensor, dissolved oxygen sensor, chemical oxygen demand sensor, ammonia nitrogen sensor and turbidity sensor, pH valve sensor, dissolved oxygen sensor, chemical oxygen demand sensor, ammonia nitrogen sensor and turbidity sensor's detection end all is arranged in the inside of installation tube seat, the one end fixed mounting of installation tube seat has the immersible pump, the outlet port department fixed mounting of immersible pump has the water diversion hose, the outlet end fixed mounting of water diversion hose has the shower head, shower head fixed mounting is on the side surface of flotation tank.
Through adopting above-mentioned technical scheme, can be nimble with pH valve sensor, dissolved oxygen sensor, chemical oxygen demand sensor, ammonia nitrogen sensor and turbidity sensor arrange in different degree of depth in and monitor the operation, can utilize the immersible pump to drive the inside that the water passed the installation tube socket simultaneously and improve the accuracy of monitoring data to and spray the operation with the inside of leading into the shower head along the water guide hose with the water body of flowing, realize the oxygenation operation of water.
Further, the through hole inner wall of the center shaft position of the floating box is fixedly connected with a limit bar, the limit bar is slidably mounted in a limit groove on the side surface of the screw rod, one end of the through hole of the center shaft position of the floating box is rotatably provided with a rotating seat, the inner wall of the center shaft through hole of the rotating seat is provided with threads, the screw rod penetrates through the inside of the center shaft through hole of the rotating seat, the screw rod is in threaded connection with the rotating seat, a first bevel gear is fixedly sleeved on the outer portion of the rotating seat, an adjusting motor is fixedly mounted on the upper surface of the floating box, and one end of a rotating shaft of the adjusting motor is fixedly provided with a second bevel gear which is meshed with the first bevel gear.
Through adopting above-mentioned technical scheme, can utilize adjusting motor to come nimble convenient adjusting screw's the volume of sinking, guarantee the nimble convenience of adjusting operation.
Further, a data processing center is fixedly arranged on the upper surface of the buoyancy tank and is electrically connected with the pH value sensor, the dissolved oxygen sensor, the chemical oxygen demand sensor, the ammonia nitrogen sensor and the turbidity sensor respectively.
By adopting the technical scheme, the monitored data can be effectively processed, and the stability and the effectiveness of water monitoring are ensured.
Further, the upper surface of the buoyancy tank is fixedly connected with a mounting bracket, the upper end face of the mounting bracket is fixedly provided with a solar cell panel, the side surface of the buoyancy tank is provided with a limiting ring, and the inside of the limiting ring is penetrated with a limiting rod.
Through adopting above-mentioned technical scheme, can utilize solar cell panel to convert light energy into the electric energy, guaranteed the device's sustainable work, the gag lever post can be effectual carries out spacing fixedly to the buoyancy tank simultaneously, has guaranteed the stability of monitoring operation.
Further, the upper surface of the buoyancy tank is fixedly provided with a waterproof tank, the inside of the waterproof tank is fixedly provided with a storage battery, and the solar cell panel is electrically connected with the storage battery.
Through adopting above-mentioned technical scheme, can utilize the battery to carry out effectual storage to the electric energy of conversion.
Further, the data processing center comprises a remote control circuit board, a GPRS communication module, an analog-to-digital converter and a processing chip, wherein the remote control circuit board and the processing chip are respectively and electrically connected with the GPRS communication module, and the analog-to-digital converter is electrically connected with the processing chip.
Through adopting above-mentioned technical scheme, utilize GPRS communication module to realize the monitoring operation of different degree of depth in the remote control circuit board with the stable transmission of remote control information, also can upload the numerical value of monitoring to the server in simultaneously through GPRS communication module, realize remote monitoring operation, the practicality has obtained further improvement.
In summary, the beneficial technical effects of the utility model are as follows:
1. according to the utility model, during monitoring, the sinking amount of the screw rod can be regulated, so that the mounting tube seat is arranged at different water depths, water quality conditions of different depths can be conveniently monitored, meanwhile, in the monitoring process, the submersible pump rotates, so that water passes through the inside of the mounting tube seat, enters the inside of the water guide hose, enters the inside of the spray header along the water guide hose and finally is sprayed out, the oxygenation operation of the water body is effectively realized, the device can effectively improve the practicability and the functionality of the aquaculture water body while monitoring the condition of the aquaculture water body, and the water flowing in the mounting tube seat can conveniently obtain values which are closer to actual conditions by the pH value sensor, the dissolved oxygen sensor, the chemical oxygen demand sensor, the ammonia nitrogen sensor and the turbidity sensor, so that the accuracy of monitoring data is improved;
2. according to the utility model, the second bevel gear can be driven to rotate by utilizing the rotation of the adjusting motor, the first bevel gear is driven to rotate by utilizing the second bevel gear, and the rotating seat is further effectively driven to rotate.
Drawings
FIG. 1 is a first perspective view of a three-dimensional structure of the present utility model;
FIG. 2 is a second perspective view of the three-dimensional structure of the present utility model;
fig. 3 is an enlarged view of fig. 2 at a in accordance with the present utility model.
In the figure: 1. a buoyancy tank; 2. a limit rod; 3. a screw; 4. installing a tube seat; 5. submersible pump; 6. a pH value sensor; 7. a turbidity sensor; 8. a water guiding hose; 9. a spray header; 10. a battery box; 11. adjusting a motor; 12. a solar cell panel; 13. a data processing center; 14. a rotating seat; 15. a first helical gear; 16. a second helical gear; 17. a dissolved oxygen sensor; 18. a chemical oxygen demand sensor; 19. an ammonia nitrogen sensor.
Detailed Description
The process according to the utility model is described in further detail below with reference to the accompanying drawings.
Referring to fig. 1 and 2, a green intelligent monitoring device of quality of water, including buoyancy tank 1, its characterized in that: the central axis of the buoyancy tank 1 is provided with a through hole, the inside of the through hole is penetrated with a screw 3, one end of the screw 3 is fixedly connected with a mounting tube seat 4, the outer surface of the mounting tube seat 4 is provided with a plurality of mounting holes, the inside of the mounting holes is respectively fixedly provided with a PH value sensor 6, a dissolved oxygen sensor 17, a chemical oxygen demand sensor 18, an ammonia nitrogen sensor 19 and a turbidity sensor 7, the detection ends of the PH value sensor 6, the dissolved oxygen sensor 17, the chemical oxygen demand sensor 18, the ammonia nitrogen sensor 19 and the turbidity sensor 7 are all arranged in the inside of the mounting tube seat 4, one end of the mounting tube seat 4 is fixedly provided with a submersible pump 5, the air outlet port of the submersible pump 5 is fixedly provided with a water guide hose 8, the water outlet end of the water guide hose 8 is fixedly provided with a spray head 9, the spray head 9 is fixedly provided with a data processing center 13 on the upper surface of the buoyancy tank 1, the data processing center 13 is respectively and electrically connected with the PH value sensor 6, the dissolved oxygen sensor 17, the chemical oxygen demand sensor 18, the ammonia nitrogen sensor 19 and the turbidity sensor 7, the data processing center 13 comprises a remote control circuit board, a GPRS communication module, an analog-to-digital converter and a processing chip, the remote control circuit board and the processing chip are respectively and electrically connected with the GPRS communication module, the analog-to-digital converter is electrically connected with the processing chip, wherein the subsidence of the screw rod 3 can be regulated during the detection, so that the installation tube seat 4 is placed at different water depths, the water quality conditions of different depths can be conveniently detected, meanwhile, in the detection process, the rotation of the submersible pump 5 can enable the water body to pass through the inside of the installation tube seat 4, enter the inside of the water guide hose 8, enter the inside of the spray header 9 along the water guide hose 8 and finally be sprayed out, the effectual realization carries out oxygenation operation to the water for the device carries out oxygenation operation to the aquaculture water when monitoring aquaculture water situation, and practicality and functional have obtained effectively improving, and the inside water that flows of mount tube seat 4 can be convenient for pH value sensor 6, dissolved oxygen sensor 17, chemical oxygen demand sensor 18, ammonia nitrogen sensor 19 and turbidity sensor 7 acquire the numerical value that is close to the actual conditions more, have improved monitoring data's accuracy.
Referring to fig. 2 and 3, a limit bar is fixedly connected to the inner wall of a through hole at the center axis position of the buoyancy tank 1, the limit bar is slidably mounted in a limit groove on the side surface of the screw rod 3, one end of the through hole at the center axis position of the buoyancy tank 1 is rotatably provided with a rotating seat 14, threads are arranged on the inner wall of the center axis through hole of the rotating seat 14, the screw rod 3 penetrates through the inside of the center axis through hole of the rotating seat 14, the screw rod 3 is in threaded connection with the rotating seat 14, a first bevel gear 15 is fixedly sleeved and fixed on the outer side of the rotating seat 14, an adjusting motor 11 is fixedly mounted on the upper surface of the buoyancy tank 1, a second bevel gear 16 is fixedly mounted on one end of a rotating shaft of the adjusting motor 11, the second bevel gear 16 is meshed with the first bevel gear 15, the second bevel gear 16 can be driven to rotate by rotation of the adjusting motor 11, the first bevel gear 15 is driven by the second bevel gear 16, and then the rotating seat 14 is driven to rotate effectively, and the screw rod 3 is in threaded connection with the threaded hole at the center axis position of the rotating seat 14, and meanwhile the limit bar inside the through hole of the buoyancy tank 1 is buckled in the limit groove on the side surface of the screw rod 3, so that the rotating seat 14 can drive the rotating seat 3 to rotate in the through hole 1, and the whole can be flexibly monitored and conveniently and flexibly and conveniently and rapidly arranged in a monitoring mechanism.
Referring to fig. 1, a mounting bracket is fixedly connected to the upper surface of a buoyancy tank 1, a solar panel 12 is fixedly mounted on the upper end surface of the mounting bracket, a limit ring is arranged on the side surface of the buoyancy tank 1, a limit rod 2 penetrates through the inside of the limit ring, a waterproof tank is fixedly mounted on the upper surface of the buoyancy tank 1, a storage battery is fixedly mounted in the waterproof tank, the solar panel 12 is electrically connected with the storage battery, solar power generation can be performed by using the solar panel 12, and long-time continuous operation of the device is effectively realized.
Working principle: during the use, spacing fixing in appointed waters with buoyancy tank 1 through gag lever post 2, start immersible pump 5 then, immersible pump 5's rotation makes the inside of waiting to monitor water through mount tube seat 4, get into the inside of water hose 8, flow into the inside of shower head 9 along water hose 8, finally spout, in this process, pH valve sensor 6, dissolved oxygen sensor 17, chemical oxygen demand sensor 18, ammonia nitrogen sensor 19 and turbidity sensor 7 detect the water and will detect the signal transmission that produces to analog-digital converter in, after the conversion in carrying to the processing chip, processing chip is put in order the numerical value after, upload to the high in the clouds server through GPRS communication module, realize remote monitoring operation, can be through GPRS communication module transmission signal to remote control circuit board at the in-process of whole monitoring, utilize remote control circuit board to control adjustment motor 11 to rotate, utilize the rotation of adjustment motor 11 to drive second helical gear 16 rotation, utilize second helical gear 16 to drive first helical gear 15 rotation, and then effectual drive rotary seat 14 rotation, because screw 3 threaded connection is in the screw hole position department, the inside of the water tank 1 carries out the electric energy conversion device at the inside the electric energy, the inside of the water tank, the water tank is realized, the electric energy is realized in the speed limit device is being realized to the inside the speed limit device, the water tank is realized, the inside the water tank is can be in the speed limit device is being realized, the inside the speed is guaranteed to the electric energy is being monitored in the inside the speed groove, the speed is more than the speed is stable, the inside the speed-down device is can be in the speed-down, the speed-down device is can be in the speed limit device is can be in the speed case, the speed device is in the speed inside the speed is in the speed of the speed is.
The embodiments of the present utility model are all preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.
Claims (6)
1. The utility model provides a green intelligent monitoring device of quality of water, includes buoyancy tank (1), its characterized in that: the floating box (1) is provided with a through hole at the center shaft position, a screw rod (3) penetrates through the inside of the through hole, one end of the screw rod (3) is fixedly connected with a mounting tube seat (4), a plurality of mounting holes are arranged on the outer surface of the mounting tube seat (4), a PH value sensor (6), a dissolved oxygen sensor (17), a chemical oxygen demand sensor (18), an ammonia nitrogen sensor (19) and a turbidity sensor (7) are respectively and fixedly arranged in the mounting holes, the utility model discloses a device for detecting the pH value of a water tank, including pH valve sensor (6), dissolved oxygen sensor (17), chemical oxygen demand sensor (18), ammonia nitrogen sensor (19) and turbidity sensor (7), the inside of installing tube socket (4) is all arranged in to the detection end, the one end fixed mounting of installing tube socket (4) has immersible pump (5), the exit port department fixed mounting of immersible pump (5) has water guide hose (8), the exit end fixed mounting of water guide hose (8) has shower head (9), shower head (9) fixed mounting is on the side surface of flotation tank (1).
2. The intelligent water quality green monitoring device according to claim 1, wherein: the utility model discloses a floating box, including screw rod (1), screw rod (14), screw rod (3), regulating motor (11), first helical gear (15) are fixed in the outside cup joint of screw rod (3), regulating motor (11) are fixed on the upper surface of floating box (1), rotary seat (14) are installed in the one end rotation of the axis position department through-hole of floating box (1), be provided with the screw thread on the axis through-hole inner wall of rotary seat (14), screw rod (3) run through inside in rotary seat (14) axis through-hole, and screw rod (3) and rotary seat (14) threaded connection, first helical gear (15) are cup jointed to the outside of rotary seat (14), regulating motor (11) are fixed on the upper surface, rotary shaft one end fixed mounting of regulating motor (11) has second helical gear (16), second helical gear (16) are connected with first helical gear (15) meshing.
3. The intelligent water quality green monitoring device according to claim 1, wherein: the upper surface of the buoyancy tank (1) is fixedly provided with a data processing center (13), and the data processing center (13) is electrically connected with a pH value sensor (6), a dissolved oxygen sensor (17), a chemical oxygen demand sensor (18), an ammonia nitrogen sensor (19) and a turbidity sensor (7) respectively.
4. The intelligent water quality green monitoring device according to claim 1, wherein: the solar cell panel (12) is fixedly connected with a mounting bracket on the upper surface of the buoyancy tank (1), the solar cell panel (12) is fixedly mounted on the upper end surface of the mounting bracket, a limiting ring is arranged on the side surface of the buoyancy tank (1), and a limiting rod (2) penetrates through the inside of the limiting ring.
5. The intelligent water quality monitoring device according to claim 4, wherein: the upper surface of the buoyancy tank (1) is fixedly provided with a waterproof tank, the inside of the waterproof tank is fixedly provided with a storage battery, and the solar cell panel (12) is electrically connected with the storage battery.
6. A green intelligent monitoring device for water quality according to claim 3, wherein: the data processing center (13) comprises a remote control circuit board, a GPRS communication module, an analog-to-digital converter and a processing chip, wherein the remote control circuit board and the processing chip are respectively and electrically connected with the GPRS communication module, and the analog-to-digital converter is electrically connected with the processing chip.
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CN202223538266.0U CN219108511U (en) | 2022-12-29 | 2022-12-29 | Green intelligent monitoring device of quality of water |
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CN116873136A (en) * | 2023-06-29 | 2023-10-13 | 武汉理工大学 | Mobile platform for inspection of ocean pasture |
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CN116873136A (en) * | 2023-06-29 | 2023-10-13 | 武汉理工大学 | Mobile platform for inspection of ocean pasture |
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