CN113075367A

CN113075367A - Pollution source monitoring data analysis system based on Internet of things

Info

Publication number: CN113075367A
Application number: CN202110341598.0A
Authority: CN
Inventors: 张科
Original assignee: Nanjing Jingying Environmental Testing Technology Co ltd
Current assignee: Nanjing Jingying Environmental Testing Technology Co ltd
Priority date: 2021-03-30
Filing date: 2021-03-30
Publication date: 2021-07-06

Abstract

The invention discloses a pollution source monitoring data analysis system based on the Internet of things, relates to the technical field of pollution source monitoring, and aims to solve the problems that pollution sources are mainly distributed in the atmosphere and a water body, the atmosphere is monitored alone and cannot meet the requirement of pollution source monitoring data, and the pollution sources in the atmosphere are scattered and distributed, so that the monitoring precision of the atmosphere pollution sources is reduced, and the subsequent pollution source monitoring data analysis is influenced. The top of cursory base is provided with monitoring box casing, the top of monitoring box casing is provided with the case lid board, the top of cursory base is provided with data processor, the inside of monitoring box casing is provided with the mounting panel, the top of mounting panel is provided with the monitoring pipe way, the inside of monitoring pipe way is provided with air monitoring module, the below of mounting panel is provided with data transceiver and locator, the below of cursory base is provided with the water quality monitoring module, the top of case lid board is provided with the siren.

Description

Pollution source monitoring data analysis system based on Internet of things

Technical Field

The invention relates to the technical field of pollution source monitoring, in particular to a pollution source monitoring data analysis system based on the Internet of things.

Background

The pollution source is a place, equipment and device which discharge or release harmful substances to the environment or have harmful effects on the environment. Any substance or energy that enters the environmental system in an inappropriate concentration, amount, velocity, morphology and route and creates pollution or damage to the environment, collectively referred to as pollutants. The generation process according to pollution can be divided into two categories: primary pollutant: pollutants released by pollution sources that directly harm human health or cause a reduction in environmental quality; secondary pollutants: the emission material produces a series of physical, chemical and biochemical reactions under certain environmental conditions, resulting in a reduction in environmental quality. In order to ensure timely acquisition of real-time information of the pollution source, the pollution source needs to be monitored.

At present, a monitoring device mainly monitors an atmosphere pollution source, the pollution source is mainly distributed in the atmosphere and a water body, monitoring of the atmosphere alone cannot meet monitoring data of the pollution source, and the pollution source in the atmosphere is scattered and distributed, so that monitoring precision of the atmosphere pollution source is reduced, subsequent analysis of the monitoring data of the pollution source is influenced, and using requirements cannot be met. Therefore, a pollution source monitoring data analysis system based on the internet of things is urgently needed in the market to solve the problems.

Disclosure of Invention

The invention aims to provide a pollution source monitoring data analysis system based on the Internet of things, and aims to solve the problems that pollution sources are mainly distributed in the atmosphere and a water body, the atmosphere is monitored alone and cannot meet the pollution source monitoring data, and the pollution sources in the atmosphere are scattered and distributed, so that the monitoring precision of the atmosphere pollution sources is reduced, and the subsequent pollution source monitoring data analysis is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a pollution source monitoring data analysis system based on the Internet of things comprises a floating base, wherein a monitoring box shell is arranged above the floating base and is connected with the floating base through screws, a box cover plate is arranged above the monitoring box shell and is connected with the monitoring box shell through screws, a data processor is arranged above the floating base and is connected with the floating base through screws, a mounting plate is arranged inside the monitoring box shell, a monitoring pipeline is arranged above the mounting plate, one end of the monitoring pipeline extends to the outside of the monitoring box shell, an air monitoring module is arranged inside the monitoring pipeline, a data transceiver and a positioner are arranged below the mounting plate and are connected with the mounting plate through screws, and a water quality monitoring module is arranged below the floating base, and water quality monitoring module passes through bolted connection with cursory base, one side of monitoring case casing is provided with display screen and keypad, and display screen and keypad all pass through bolted connection with the monitoring case casing, the top of case apron is provided with the siren, and the siren passes through bolted connection with the case apron, siren, display screen, keypad, data transceiver and locator all with data processor electric connection.

Preferably, the air monitoring module includes particle detector, sulfur dioxide detector, nitrogen oxide detector and ozone concentration detector, and particle detector, sulfur dioxide detector, nitrogen oxide detector and ozone concentration detector set gradually in the inside of monitoring the pipeline, particle detector, sulfur dioxide detector, nitrogen oxide detector and ozone concentration detector all pass through screw connection with the monitoring pipeline, and particle detector, sulfur dioxide detector, nitrogen oxide detector and ozone concentration detector all with data processor electric connection.

Preferably, the water quality monitoring module includes turbidity sensor, quality of water ion sensor, pH valve sensor and organic matter sensor, and turbidity sensor, quality of water ion sensor, pH valve sensor and organic matter sensor set gradually on the water quality monitoring module, turbidity sensor, quality of water ion sensor, pH valve sensor and organic matter sensor all pass through the screw connection with the water quality monitoring module, and turbidity sensor, quality of water ion sensor, pH valve sensor and organic matter sensor all with data processor electric connection, the below of water quality monitoring module is provided with the filter screen, and the filter screen passes through the screw connection with the water quality monitoring module.

Preferably, one side of monitoring pipeline is provided with the fan, and the fan passes through bolted connection with the mounting panel, be provided with the air duct between fan and the monitoring pipeline, and the both ends of air duct extend to the inside of fan and monitoring pipeline respectively, the top of case lid board is provided with flip board, and flip board and case lid board rotate to be connected, flip board sets up the top at the fan.

Preferably, be provided with the louvre on the monitoring case casing, the louvre is provided with two, and two louvres setting are in the both sides of monitoring case casing, two the inside of louvre all is provided with radiator fan, and radiator fan passes through bolted connection with the monitoring case casing, one side of radiator fan is provided with the dust screen, and the inner wall laminating of dust screen and louvre is connected.

Preferably, two one side of louvre all is provided with dampproofing piece, and dampproofing piece passes through screw connection with monitoring case casing, be provided with the waterproof glue between monitoring case casing and the cursory base, and waterproof glue and monitoring case casing and cursory base connection structure as an organic whole, the outside of monitoring case casing is provided with the guardrail, and the guardrail passes through screw connection with the cursory base, one side of guardrail is provided with the lamp strip, and the lamp strip passes through screw connection with the guardrail.

Preferably, the below of cursory base is provided with removes the seat, removes the seat and is provided with four, and four remove the seat and set gradually in the below of cursory base, remove the seat and pass through the screw connection with cursory base.

Preferably, the below of cursory base is provided with the drive seat, and drives the seat and pass through the screw connection with cursory base, the inside of driving the seat is provided with the screw impeller, and the screw impeller is provided with two, and the screw impeller passes through the screw connection with the drive seat, the both sides of screw impeller and the one end of monitoring pipe all are provided with the grid net, and the grid net all passes through the screw connection with monitoring box casing and drive seat.

Compared with the prior art, the invention has the beneficial effects that:

1. the device can extract air and inject the air into the monitoring pipeline under the action of the fan through the arrangement of the fan, the flip plate and the air monitoring module, the air injected into the monitoring pipeline can be detected by utilizing the air monitoring module, so that a pollution source in the atmosphere is monitored, and the flip plate can block the air inlet in rainy and snowy days, so that rainwater is prevented from entering the monitoring pipeline, and a certain protection effect is achieved. The problem of pollution source wandering in the atmosphere has increased the monitoring degree of difficulty is solved.

2. According to the device, the water quality monitoring module and the filter screen are arranged, the water quality monitoring module can be used for detecting pollution sources in water quality, so that water quality monitoring is achieved, the filter screen can play a role in protecting the sensor, and floating objects are prevented from being adsorbed on the sensor to affect use. The problem of monitoring devices can not satisfy atmosphere and quality of water synchronous detection is solved.

3. According to the device, the floating base, the movable base and the propeller pusher are arranged, the monitoring device can float on the water surface through the floating base, the monitoring device can be moved on the ground through the movable base, and the propeller pusher can push the monitoring device placed in a water body, so that the monitoring range is enlarged. The problem that the monitoring device cannot realize amphibious is solved.

4. According to the device, the guardrail, the light bar and the moisture-proof block are arranged, the guardrail can avoid water wave sputtering, the moisture-proof block can absorb moisture in the monitoring device, and the light bar can be lightened at night, so that the effect of explicit indication is achieved. The problem of place the monitoring devices in aqueous and how much influence of humid gas is used is solved.

Drawings

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

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of a monitoring conduit of the present invention;

FIG. 4 is a cross-sectional view of a water quality monitoring module of the present invention;

fig. 5 is a schematic diagram of the present invention.

In the figure: 1. a floating base; 2. monitoring the tank housing; 3. a box cover plate; 4. turning over a cover plate; 5. an alarm; 6. a display screen; 7. a keyboard; 8. heat dissipation holes; 9. a guardrail; 10. a light bar; 11. a movable seat; 12. a driving seat; 13. a grid net; 14. a propeller pusher; 15. a water quality monitoring module; 16. waterproof glue; 17. a data processor; 18. mounting a plate; 19. monitoring the pipeline; 20. an air monitoring module; 21. a fan; 22. filtering with a screen; 23. a data transceiver; 24. a positioner; 25. a turbidity sensor; 26. a moisture-proof block; 27. a heat radiation fan; 28. a dust screen; 29. an air duct; 30. a particle detector; 31. a sulfur dioxide detector; 32. a nitrogen oxide detector; 33. an ozone concentration detector; 34. a water quality ion sensor; 35. a pH value sensor; 36. an organic matter sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: a pollution source monitoring data analysis system based on the Internet of things comprises a floating base 1, a monitoring box shell 2 is arranged above the floating base 1, the monitoring box shell 2 is connected with the floating base 1 through screws, a box cover plate 3 is arranged above the monitoring box shell 2, the box cover plate 3 is connected with the monitoring box shell 2 through screws, a data processor 17 is arranged above the floating base 1, the data processor 17 is connected with the floating base 1 through screws, a mounting plate 18 is arranged inside the monitoring box shell 2, a monitoring pipeline 19 is arranged above the mounting plate 18, one end of the monitoring pipeline 19 extends to the outside of the monitoring box shell 2, an air monitoring module 20 is arranged inside the monitoring pipeline 19, a data transceiver 23 and a locator 24 are arranged below the mounting plate 18, the monitoring pipeline 19, the data transceiver 23 and the locator 24 are all connected with the mounting plate 18 through screws, data transceiver 23 can realize the transmission of thing networking between monitoring data and the terminal, the terminal of being convenient for carries out the analysis to monitoring data, the below of cursory base 1 is provided with water quality monitoring module 15, and water quality monitoring module 15 passes through screw connection with cursory base 1, one side of monitoring case casing 2 is provided with display screen 6 and keypad 7, and display screen 6 and keypad 7 all pass through screw connection with monitoring case casing 2, display screen 6 can show monitoring data, and keypad 7 can artifically regulate and control, the top of case apron 3 is provided with siren 5, siren 5 can send out the police dispatch newspaper when the monitoring is unusual, and siren 5 passes through screw connection with case apron 3, siren 5, display screen 6, keypad 7, data transceiver 23 and locator 24 all with data processor 17 electric connection.

Further, the air monitoring module 20 includes a particle detector 30, a sulfur dioxide detector 31, a nitrogen oxide detector 32 and an ozone concentration detector 33, and the particle detector 30, the sulfur dioxide detector 31, the nitrogen oxide detector 32 and the ozone concentration detector 33 are sequentially arranged inside the monitoring pipeline 19, the particle detector 30, the sulfur dioxide detector 31, the nitrogen oxide detector 32 and the ozone concentration detector 33 are all connected with the monitoring pipeline 19 through screws, and the particle detector 30, the sulfur dioxide detector 31, the nitrogen oxide detector 32 and the ozone concentration detector 33 are all electrically connected with the data processor 17. The concentrations of particles, sulfur dioxide, nitrogen oxides and ozone in the air can be monitored through the particle detector 30, the sulfur dioxide detector 31, the nitrogen oxide detector 32 and the ozone concentration detector 33, and the atmospheric pollution source monitoring is realized.

Further, water quality monitoring module 15 includes turbidity sensor 25, quality of water ion sensor 34, pH value sensor 35 and organic matter sensor 36, and turbidity sensor 25, quality of water ion sensor 34, pH value sensor 35 and organic matter sensor 36 set gradually on water quality monitoring module 15, turbidity sensor 25, quality of water ion sensor 34, pH value sensor 35 and organic matter sensor 36 all pass through the screw connection with water quality monitoring module 15, and turbidity sensor 25, quality of water ion sensor 34, pH value sensor 35 and organic matter sensor 36 all with data processor 17 electric connection, water quality monitoring module 15's below is provided with filter screen 22, and filter screen 22 passes through the screw connection with water quality monitoring module 15. The turbidity, water quality ions, pH value and organic matters of the water body can be monitored through the turbidity sensor 25, the water quality ion sensor 34, the pH value sensor 35 and the organic matter sensor 36, so that the monitoring of a water quality pollution source is realized.

Further, one side of the monitoring pipeline 19 is provided with a fan 21, the fan 21 is connected with the mounting plate 18 through screws, an air guide pipe 29 is arranged between the fan 21 and the monitoring pipeline 19, two ends of the air guide pipe 29 respectively extend into the fan 21 and the monitoring pipeline 19, a flip plate 4 is arranged above the box cover plate 3, the flip plate 4 is rotatably connected with the box cover plate 3, and the flip plate 4 is arranged above the fan 21. Can extract the monitoring pipe 19 with the air through fan 21 in, improve atmosphere pollution sources monitoring effect, and flip board 4 can block up monitoring devices's air inlet in sleet day to can play certain guard action.

Further, be provided with louvre 8 on the monitoring box casing 2, louvre 8 is provided with two, and two louvres 8 set up in the both sides of monitoring box casing 2, and the inside of two louvres 8 all is provided with radiator fan 27, and radiator fan 27 passes through the screw connection with monitoring box casing 2, and one side of radiator fan 27 is provided with dust screen 28, and dust screen 28 is connected with the inner wall laminating of louvre 8. The heat inside the monitoring device can be conducted away through the heat dissipation holes 8, the air accelerated by the heat dissipation fan 27 flows, the heat dissipation efficiency is improved, and the dustproof net 28 can play a dustproof role.

Further, one side of two louvres 8 all is provided with dampproofing piece 26, and dampproofing piece 26 passes through screw connection with monitoring case casing 2, be provided with waterproof glue 16 between monitoring case casing 2 and the cursory base 1, and waterproof glue 16 is connected structure as an organic whole with monitoring case casing 2 and cursory base 1, the outside of monitoring case casing 2 is provided with guardrail 9, and guardrail 9 passes through screw connection with cursory base 1, one side of guardrail 9 is provided with lamp strip 10, and lamp strip 10 passes through screw connection with guardrail 9. The damp-proof block 26 can absorb damp in the monitoring device, the guardrail 9 and the waterproof glue 16 can play a waterproof role, and the lamp strip 10 can be lighted at night to play an obvious role.

Further, the below of cursory base 1 is provided with removes seat 11, removes seat 11 and is provided with four, and four remove seat 11 and set gradually in the below of cursory base 1, remove seat 11 and cursory base 1 and pass through the screw connection. The movement of the monitoring device over the ground is facilitated by the mobile seat 11.

Further, the below of cursory base 1 is provided with drive seat 12, and drive seat 12 passes through the screw connection with cursory base 1, and the inside of drive seat 12 is provided with screw impeller 14, and screw impeller 14 is provided with two, and screw impeller 14 passes through the screw connection with drive seat 12, and the both sides of screw impeller 14 and the one end of monitoring pipe 19 all are provided with grid net 13, and grid net 13 all passes through the screw connection with monitoring box casing 2 and drive seat 12. The propeller pusher 14 can push the monitoring device, so that the monitoring device can move on the water surface, and the grid net 13 can avoid the penetration of sundries, thereby playing a certain protection role.

The working principle is as follows: when the device is used, the monitoring device is moved to a proper monitoring position by the moving seat 11 or the propeller pusher 14, the turning cover plate 4 is opened, the fan 21 is started, air is extracted and injected into the monitoring pipeline 19 under the action of the fan 21, and the particle detector 30, the sulfur dioxide detector 31, the nitrogen oxide detector 32 and the ozone concentration detector 33 monitor the concentrations of particles, sulfur dioxide, nitrogen oxide and ozone in the air; the turbidity sensor 25, the water quality ion sensor 34, the pH value sensor 35 and the organic matter sensor 36 monitor the turbidity, water quality ions, pH value and organic matters of the water body, monitoring data are processed by the data processor 17, monitoring results are displayed on the display screen 6, and the alarm 5 is triggered to give an alarm spontaneously when the monitoring data are abnormal; and the data transceiver 23 can upload the monitoring data to the terminal for data analysis by means of the internet of things. Light lamp strip 10 plays the effect of clearly showing when using night, and dampproofing piece 26 can be with the inside damp moisture absorption of monitoring devices, ensures that the monitoring devices internal environment is dry.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a pollution sources monitoring data analytic system based on thing networking, includes float base (1), its characterized in that: the monitoring box comprises a buoy base (1), a monitoring box shell (2) is arranged above the buoy base (1), the monitoring box shell (2) is connected with the buoy base (1) through screws, a box cover plate (3) is arranged above the monitoring box shell (2), the box cover plate (3) is connected with the monitoring box shell (2) through screws, a data processor (17) is arranged above the buoy base (1), the data processor (17) is connected with the buoy base (1) through screws, a mounting plate (18) is arranged inside the monitoring box shell (2), a monitoring pipeline (19) is arranged above the mounting plate (18), one end of the monitoring pipeline (19) extends to the outside of the monitoring box shell (2), an air monitoring module (20) is arranged inside the monitoring pipeline (19), a data transceiver (23) and a positioner (24) are arranged below the mounting plate (18), and monitoring pipe way (19), data transceiver (23) and locator (24) all pass through bolted connection with mounting panel (18), the below of cursory base (1) is provided with water quality monitoring module (15), and water quality monitoring module (15) pass through bolted connection with cursory base (1), one side of monitoring box casing (2) is provided with display screen (6) and keypad (7), and display screen (6) and keypad (7) all pass through bolted connection with monitoring box casing (2), the top of case apron (3) is provided with siren (5), and siren (5) pass through bolted connection with case apron (3), siren (5), display screen (6), keypad (7), data transceiver (23) and locator (24) all with data processor (17) electric connection.

2. The pollution source monitoring data analysis system based on the internet of things as claimed in claim 1, wherein: air monitoring module (20) includes particle detector (30), sulfur dioxide detector (31), nitrogen oxide detector (32) and ozone concentration detector (33), and particle detector (30), sulfur dioxide detector (31), nitrogen oxide detector (32) and ozone concentration detector (33) set gradually in the inside of monitoring pipeline (19), particle detector (30), sulfur dioxide detector (31), nitrogen oxide detector (32) and ozone concentration detector (33) all pass through the screw connection with monitoring pipeline (19), and particle detector (30), sulfur dioxide detector (31), nitrogen oxide detector (32) and ozone concentration detector (33) all with data processor (17) electric connection.

3. The pollution source monitoring data analysis system based on the internet of things as claimed in claim 1, wherein: the water quality monitoring module (15) comprises a turbidity sensor (25), a water quality ion sensor (34), a pH value sensor (35) and an organic matter sensor (36), and the turbidity sensor (25), the water quality ion sensor (34), the pH value sensor (35) and the organic matter sensor (36) are arranged on the water quality monitoring module (15) in sequence, the turbidity sensor (25), the water quality ion sensor (34), the pH value sensor (35) and the organic matter sensor (36) are all connected with the water quality monitoring module (15) through screws, and the turbidity sensor (25), the water quality ion sensor (34), the pH value sensor (35) and the organic matter sensor (36) are all electrically connected with the data processor (17), a filter screen (22) is arranged below the water quality monitoring module (15), and the filter screen (22) is connected with the water quality monitoring module (15) through screws.

4. The pollution source monitoring data analysis system based on the internet of things as claimed in claim 1, wherein: one side of monitoring pipeline (19) is provided with fan (21), and fan (21) passes through screw connection with mounting panel (18), be provided with air duct (29) between fan (21) and monitoring pipeline (19), and the both ends of air duct (29) extend to the inside of fan (21) and monitoring pipeline (19) respectively, the top of case apron (3) is provided with flip board (4), and flip board (4) and case apron (3) rotate to be connected, flip board (4) set up the top at fan (21).

5. The pollution source monitoring data analysis system based on the internet of things as claimed in claim 1, wherein: be provided with louvre (8) on monitoring case casing (2), louvre (8) are provided with two, and two louvres (8) set up in the both sides of monitoring case casing (2), two the inside of louvre (8) all is provided with radiator fan (27), and radiator fan (27) passes through screw connection with monitoring case casing (2), one side of radiator fan (27) is provided with dust screen (28), and the inner wall laminating of dust screen (28) and louvre (8) is connected.

6. The pollution source monitoring data analysis system based on the Internet of things according to claim 5, wherein: two one side of louvre (8) all is provided with dampproofing piece (26), and dampproofing piece (26) passes through screw connection with monitoring case casing (2), be provided with between monitoring case casing (2) and the cursory base (1) waterproof glue (16), and waterproof glue (16) and monitoring case casing (2) and cursory base (1) are connected structure as an organic whole, the outside of monitoring case casing (2) is provided with guardrail (9), and guardrail (9) and cursory base (1) pass through screw connection, one side of guardrail (9) is provided with lamp strip (10), and lamp strip (10) and guardrail (9) pass through screw connection.

7. The pollution source monitoring data analysis system based on the internet of things as claimed in claim 1, wherein: the lower part of the floating base (1) is provided with four moving seats (11), the four moving seats (11) are sequentially arranged below the floating base (1), and the moving seats (11) are connected with the floating base (1) through screws.

8. The pollution source monitoring data analysis system based on the internet of things according to claim 7, wherein: the utility model discloses a monitoring box, including cursory base (1), the below of cursory base (1) is provided with drive seat (12), and drive seat (12) and cursory base (1) through the screw connection, the inside of driving seat (12) is provided with screw impeller (14), and screw impeller (14) are provided with two, and screw impeller (14) and drive seat (12) through the screw connection, the both sides of screw impeller (14) and the one end of monitoring pipe way (19) all are provided with grid net (13), and grid net (13) and monitoring box casing (2) and drive seat (12) all through the screw connection.