CN111487387A

CN111487387A - Shipborne mobile nitrogen dioxide detection sensor

Info

Publication number: CN111487387A
Application number: CN202010372856.7A
Authority: CN
Inventors: 曲骁然; 李伟光; 王梦驰; 史朝相; 沈理
Original assignee: Nanjing Chuanxingtianxia Information Technology Co ltd
Current assignee: Nanjing Chuanxingtianxia Information Technology Co ltd
Priority date: 2020-05-06
Filing date: 2020-05-06
Publication date: 2020-08-04

Abstract

The invention discloses a shipborne mobile nitrogen dioxide detection sensor which comprises a shipborne module, wherein a data acquisition module, a positioning module and a communication module are arranged in the shipborne module, the data acquisition module is used for acquiring water quality information in the current water area, the positioning module is used for positioning the position of a ship, the shipborne module is connected with a remote cloud platform through the communication module, a data statistics module, a data analysis module and a data storage module are arranged in the cloud platform, and the cloud platform is simultaneously connected with a plurality of groups of shipborne modules.

Description

Shipborne mobile nitrogen dioxide detection sensor

Technical Field

The invention relates to the technical field of water quality detection, in particular to a shipborne mobile nitrogen dioxide detection sensor.

Background

Nitrogen dioxide refers to a reddish-brown toxic gas at high temperatures. Nitrogen dioxide and dinitrogen tetroxide coexist in a mixture at room temperature (0 to 21.5 ℃). Toxic and irritant. Dissolved in concentrated nitric acid to produce fuming nitric acid. Can be superposed to synthesize dinitrogen tetroxide. React with water to generate nitric acid and nitric oxide. Reacting with alkali to generate nitrate. Can react with many organic compounds. The component of nitrogen oxide is an index in water quality monitoring, but the current nitrogen oxide detection sensor for the water quality monitoring ship has the problems of single function, no instant communication capability, poor information feedback capability and the like.

Disclosure of Invention

The invention aims to provide a ship-borne mobile nitrogen dioxide detection sensor to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

on-board removes nitrogen dioxide detection sensor, including the on-board module, be provided with data acquisition module, orientation module and communication module in the on-board module, data acquisition module is used for gathering the quality of water information in the current water territory, and orientation module fixes a position ship position, and the on-board module is connected with long-range cloud platform through communication module, be provided with data statistics module, data analysis module and data storage module in the cloud platform, the cloud platform is connected with multiunit on-board module simultaneously, and data statistics module is used for the quality of water information that the on-board module of statistics of each place sent, and data analysis module carries out unified classification to data, and data storage module is used for the storage data record.

Preferably, the communication module is any one of a bluetooth module, a WiFi module, a GSM module, a GPRS module, a CDMA module, a WCDMA module, a TD-SCDMA module, and an L oRa module.

Preferably, the positioning module is a beidou double positioning S1216 module.

Preferably, a water map drawing module is arranged in the cloud platform, and the water map drawing module draws water quality information maps of different water areas according to data information of ship-borne modules in various regions and sends the water quality information maps to the ship-borne modules.

Preferably, the shipborne module comprises a man-machine interaction module, the man-machine interaction module comprises a display and an input device, a user can check the water map through the display, and the longitude and latitude information or the name of the target position can be input through the input device to inquire the water quality condition of the target position.

Preferably, the data acquisition module is including the sampling floating plate, the sampling floating plate bottom is provided with a plurality of balancing weights, the sampler barrel is installed to sampling floating plate bottom, the sensor body is installed on the inside top of sampler barrel, install check valve subassembly on the one end lateral wall of sampler barrel, the top of sampler barrel is provided with the double-screw bolt, the screw hole corresponding with the double-screw bolt is seted up to sampling floating plate bottom face.

Preferably, the top end of the sampling floating disc is tied with a steel wire rope, one end, far away from the sampling floating disc, of the steel wire rope is connected with a winch, the winch is arranged on the ship, and a motor connected with the winch is further arranged on the ship.

Preferably, the water inlet corresponding with check valve subassembly is seted up on the sampling tube surface, the through-hole has been seted up on the one end surface that check valve subassembly kept away from the sampling tube, through-hole department installs the filter screen, the inside slip chamber of having seted up of check valve subassembly, the inside slip of slip chamber is provided with the valve ball, the one end that the through-hole was kept away from to the valve ball is connected with the slip intracavity wall through the spring, the radius of valve ball is greater than the aperture of through-hole.

Compared with the prior art, the invention has the beneficial effects that: the invention can report the detection data to the cloud platform in real time, and carry out integrated analysis on the data through the cloud platform, thereby monitoring the water quality condition of a large-scale water area, detecting water at different depths and having high detection accuracy.

Drawings

FIG. 1 is a schematic diagram of a shipborne mobile nitrogen dioxide detection sensor;

FIG. 2 is a schematic structural diagram of a data acquisition module in the shipborne mobile nitrogen dioxide detection sensor;

fig. 3 is a schematic structural diagram of a one-way valve assembly in the shipborne mobile nitrogen dioxide detection sensor.

In the figure: 1-winch, 2-motor, 3-steel wire rope, 4-floating plate, 5-balancing weight, 6-sampling cylinder, 7-sensor body, 8-one-way valve component, 9-filter screen, 10-through hole, 11-water inlet, 12-sliding cavity, 13-spring and 14-valve ball.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, the present invention provides a technical solution: on-board removes nitrogen dioxide detection sensor, including the on-board module, be provided with data acquisition module, orientation module and communication module in the on-board module, data acquisition module is used for gathering the quality of water information in the current water territory, and orientation module fixes a position ship position, and the on-board module is connected with long-range cloud platform through communication module, be provided with data statistics module, data analysis module and data storage module in the cloud platform, the cloud platform is connected with multiunit on-board module simultaneously, and data statistics module is used for the quality of water information that the on-board module of statistics of each place sent, and data analysis module carries out unified classification to data, and data storage module is used for the storage data record.

The communication module is any one of a Bluetooth module, a WiFi module, a GSM module, a GPRS module, a CDMA module, a WCDMA module, a TD-SCDMA module and an L oRa module.

The positioning module is a Beidou double-positioning S1216 module.

The cloud platform is provided with a water map drawing module, and the water map drawing module draws water quality information maps of different water areas according to data information of ship-borne modules in various regions and sends the water quality information maps to the ship-borne modules.

The shipborne module comprises a man-machine interaction module, the man-machine interaction module comprises a display and an input device, a user can check a water map through the display, longitude and latitude information or names of a target position can be input through the input device, and the water quality condition of the target position can be inquired.

The data acquisition module is including

sampling floating plate

4, 4 bottoms of sampling floating plate are provided with a plurality of balancing weights 5, and quantity and weight through adjustment balancing weight 5 can make sampling floating plate 4 sink to different degree of depth to detect the quality of water of the different degree of depth, sampling tube 6 is installed to 4 bottoms of sampling floating plate, sensor body 7 is installed on the inside top of sampling tube 6, install check valve subassembly 8 on the one end lateral wall of sampling tube 6, the top of sampling tube 6 is provided with the double-screw bolt, the screw hole corresponding with the double-screw bolt is seted up to 4 bottom faces of sampling floating plate.

4 tops of sampling floating plate are tied there is wire rope 3, the one end that wire rope 3 kept away from sampling floating plate 4 is connected with capstan winch 1, capstan winch 1 sets up on the ship, still is provided with the motor 2 that is connected with capstan winch 1 on the ship, and it is rotatory to drive capstan winch 1 through motor 2, drives wire rope 3 and pulls up sampling floating plate 4.

The water inlet 11 corresponding with check valve subassembly 8 is seted up on the surface of sampling tube 6, through-hole 10 has been seted up on the one end surface that check valve subassembly 8 kept away from sampling tube 6, through-hole 10 department installs filter screen 9, the inside slip chamber 12 of having seted up of check valve subassembly 8, the inside slip of slip chamber 12 is provided with valve ball 14, the one end that through-hole 10 was kept away from to valve ball 14 is connected with slip chamber 12 inner wall through spring 13, valve ball 14's radius is greater than the aperture of through-hole 10, and when external water pressure was greater than spring 13 elasticity, valve ball 14 inwards contracts, and during water gushes into sampling tube 6, sensor body 7 detected water, when needing the quality of water of the different degree of depth of test, changes check valve subassembly 8 that has corresponding elasticity spring, just can guarantee that the water of shallow layer can not sneak into sampling tube 6, avoids causing the interference.

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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. On-board removes nitrogen dioxide detection sensor, including on-board module, its characterized in that: the ship-borne module is provided with a data acquisition module, a positioning module and a communication module, the data acquisition module is used for acquiring water quality information in the current water area, the positioning module is used for positioning the position of a ship, the ship-borne module is connected with a remote cloud platform through the communication module, the cloud platform is provided with a data statistics module, a data analysis module and a data storage module, the cloud platform is simultaneously connected with a plurality of groups of ship-borne modules, the data statistics module is used for counting the water quality information sent by the ship-borne modules in various places, the data analysis module is used for carrying out unified classification processing on the data, and the data storage module is used for storing data records.

2. The on-board mobile nitrogen dioxide detection sensor of claim 1, wherein the communication module is any one of a Bluetooth module, a WiFi module, a GSM module, a GPRS module, a CDMA module, a WCDMA module, a TD-SCDMA module, and an L oRa module.

3. The on-board mobile nitrogen dioxide detection sensor of claim 1, wherein: the positioning module is a Beidou double-positioning S1216 module.

4. The on-board mobile nitrogen dioxide detection sensor of claim 1, wherein: the cloud platform is provided with a water map drawing module, and the water map drawing module draws water quality information maps of different water areas according to data information of ship-borne modules in various regions and sends the water quality information maps to the ship-borne modules.

5. The on-board mobile nitrogen dioxide detection sensor of claim 4, wherein: the shipborne module comprises a man-machine interaction module, the man-machine interaction module comprises a display and an input device, a user can check a water map through the display, longitude and latitude information or names of a target position can be input through the input device, and the water quality condition of the target position can be inquired.

6. The on-board mobile nitrogen dioxide detection sensor of claim 1, wherein: the data acquisition module is including sampling floating plate (4), sampling floating plate (4) bottom is provided with a plurality of balancing weights (5), sampler barrel (6) are installed to sampling floating plate (4) bottom, sensor body (7) are installed on the inside top of sampler barrel (6), install check valve subassembly (8) on the one end lateral wall of sampler barrel (6), the top of sampler barrel (6) is provided with the double-screw bolt, the screw hole corresponding with the double-screw bolt is seted up to sampling floating plate (4) bottom face.

7. The on-board mobile nitrogen dioxide detection sensor of claim 6, wherein: sampling floating plate (4) top is tied has wire rope (3), wire rope (3) are kept away from the one end of sampling floating plate (4) and are connected with capstan winch (1), capstan winch (1) sets up on the ship, still is provided with motor (2) that are connected with capstan winch (1) on the ship.

8. The on-board mobile nitrogen dioxide detection sensor of claim 7, wherein: sampling tube (6) surface is seted up and is had corresponding water inlet (11) with check valve subassembly (8), through-hole (10) have been seted up on the one end surface that sampling tube (6) were kept away from in check valve subassembly (8), through-hole (10) department installs filter screen (9), sliding chamber (12) have been seted up to check valve subassembly (8) inside, sliding chamber (12) inside slip is provided with valve ball (14), the one end that through-hole (10) were kept away from in valve ball (14) is connected with sliding chamber (12) inner wall through spring (13), the radius of valve ball (14) is greater than the aperture of through-hole (10).