CN114217035B

CN114217035B - Digital treatment remote sensing monitoring system

Info

Publication number: CN114217035B
Application number: CN202111525745.6A
Authority: CN
Inventors: 杨为琛; 马广迪; 牛玉刚; 张国; 杨生娟; 孔诗元; 陈锋; 顾亮
Original assignee: Zhejiang Ev Image Geographic Information Technology Co ltd
Current assignee: Zhejiang Ev Image Geographic Information Technology Co ltd
Priority date: 2021-12-14
Filing date: 2021-12-14
Publication date: 2023-03-24
Anticipated expiration: 2041-12-14
Also published as: CN114217035A

Abstract

The invention discloses a digital treatment remote sensing monitoring system, relating to the technical field of remote sensing monitoring, wherein data acquisition is realized by utilizing water quality real-time data acquisition equipment to realize real-time acquisition and monitoring of water quality data, and space positioning utilizes the function of managing space data of a GIS, the system can be used for carrying out spatial display and positioning on different monitoring points or sampling points on the system, and can remotely control each instrument and equipment of a monitoring site, remote control commands supported by the system comprise remote sampling, measurement and cleaning of a water level detector and a component detector analytical instrument, and real-time display of data is realized to realize real-time display of river water quality monitoring data. This remote sensing monitoring system is administered in digitization uses through the cooperation of mechanisms such as regulation and control mechanism, detection mechanism and energy-conserving mechanism, has solved when needs use collection equipment to carry out real-time data acquisition to the water, and objects such as superficial algae, the blade of surface of water can hinder the problem of the motion of equipment.

Description

Digital treatment remote sensing monitoring system

Technical Field

The invention relates to the technical field of remote sensing monitoring, in particular to a digital treatment remote sensing monitoring system.

Background

The remote sensing monitoring is a technical method for monitoring by using a remote sensing technology, mainly comprises ground covering, atmosphere, ocean and near-surface conditions and the like, the remote sensing monitoring technology is a technology for monitoring and identifying environment quality conditions of remote environment targets by collecting electromagnetic wave information of the environment through aviation or satellites and the like, the remote sensing monitoring technology is an advanced environment information acquisition technology, is 'fast' and 'complete' in the aspect of acquiring large-area synchronous and dynamic environment information, is incomparable and complete with other detection means, digital management generally refers to technologies and applications such as internet, big data, artificial intelligence and the like, social management method means are innovated, a social management mode is optimized, and the scientification, refinement, high efficiency and modern social management of social management are promoted. Based on the above description, the present inventors found that the existing remote sensing monitoring system mainly has the following disadvantages, for example:

when the real-time data acquisition is carried out on the water body by using the acquisition equipment, floating algae, blades and other objects on the water surface can block the movement of the equipment.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a digital treatment remote sensing monitoring system, which solves the problem that floating algae, blades and other objects on the water surface can block the motion of equipment when the acquisition equipment is required to acquire real-time data of a water body.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a digital treatment remote sensing monitoring system comprises the following steps:

the method comprises the following steps of firstly, acquiring data, namely, acquiring and monitoring water quality data in real time by using water quality real-time data acquisition equipment, performing space display and positioning on a system by using the function of managing space data of a GIS (geographic information system), wherein the space display and positioning are performed on different monitoring points or sampling points, instrument equipment of the monitoring stations can be remotely controlled, remote control commands supported by the system comprise remote sampling, measurement and cleaning of analytical instruments such as a water level detector and a component detector, and the real-time display of the data realizes the real-time display of river water quality monitoring data (ammonia nitrogen, COD, BOD, SS, cu < 2+ > and the like);

step two, data analysis and processing, wherein the maximum value, the minimum value and the average value of the section are counted and collected in a form of a table, the indexes such as the maximum value, the minimum value, the annual average value, the monthly average value, the pollution indexes of various standards, the comprehensive pollution index of the river, the pollution sharing rate, the pollution load ratio and the like are statistically analyzed according to all section monitoring data of the monitored river, and all analysis statistical data reports realize data query, import and export and other operations;

comparing historical data, namely collecting the data detected in real time, and supporting the query result to be exported to files in formats such as EXCEL, PDF, RTF and the like by a statistical analysis function aiming at the historical data, wherein the statistical analysis realizes real-time comparison on the historical data (daily statistics, monthly statistics and annual statistics) of the monitored data, so that the historical data is more sensitive to change, and the current data and the historical data are integrated to automatically form a visual chart through visual software;

and step four, intelligently alarming and early warning, wherein the system obtains a river water quality standard according to the setting of a user, compares the obtained water quality monitoring data with the environmental quality standard, performs standard exceeding real-time display, can judge whether the system is normal or not, immediately starts a fault processing program to alarm once a problem occurs, can start an emergency task according to needs, timely reports the pollution condition to a superior department, sends early warning to a polluted area, and provides real and reliable data for a management department to set a solution.

A digital treatment remote sensing monitoring system comprises a regulation and control mechanism, wherein a detection mechanism is fixedly connected to the inner side surface of the regulation and control mechanism, an energy-saving mechanism is fixedly connected to the top of the regulation and control mechanism, the regulation and control mechanism comprises a wrinkle disc, a rubber bag is fixedly connected to the surface of the wrinkle disc, a bent pipe is fixedly connected to the inner side surface of the rubber bag, a first connecting wall is fixedly connected to the surface of the rubber bag, the data acquisition device can float on the water surface due to gas in the rubber bag, the contact area between the wrinkle disc and the water surface can be increased due to wrinkles on the surface of the wrinkle disc, so that the device can float on the water surface more stably, a reverse acting force can be generated when blades are blown by wind power to enable the wrinkle disc to reversely rotate and move on the water surface, at the moment, the first connecting wall and the second connecting wall drive floats on the water surface to rotate through a blocking strip, when the weight of the floats on the connecting wall is too heavy, the elastic strip bends, and the floats are thrown away from the connecting wall due to realize separation from the floats;

the energy-saving mechanism is including flaring the wall, the fixed surface of flaring wall is connected with the connecting pipe, the bottom of connecting pipe and the top fixed connection of rubber bag, the bottom of flaring wall is rotated and is connected with the rotor, the fixed surface of rotor is connected with the blade, when the rubber bag floats when the surface of water, the wind-force of surface of water blows the surface at the blade greatly, and the surface of blade is seted up porosely, thereby can show the weight that reduces the blade and make the blade blow by wind more easily, and some power that the blade received turns into fold wall pivoted power, and this pivoted power is through connecting the floater that the wall hinders the surface of water and is thrown away from the fold wall, and when the blade was blown, thereby can slightly rotate and use the doctor-bar to strike off the impurity on mechanism wall surface.

Preferably, the one end that the rubber bag was kept away from to first connecting wall rotates and is connected with the second connecting wall, the intermediate position fixedly connected with elasticity strip of first connecting wall and second connecting wall opposite face.

Preferably, the equal fixedly connected with in surface of first connecting wall and second connecting wall hinders the strip, the top of return bend is linked together with the bottom of connecting pipe, detection mechanism includes the mechanism wall, the surface of mechanism wall is connected with the fixed surface of return bend, the mechanism wall floats at the surface of water through the rubber bag, because the water is in the flow state, when needs are taken a sample to the water, can extract the inside gas of sample wall and discharge from the top position of mechanism wall through the air pump, because the damping action of damping piece, the water is extracted and is got into the sample wall, and detect data such as ammonia nitrogen, BOD, COD, SS, cu2+ through the composition detector, later through letting in gas to sample wall inside with water discharge sample wall, thereby reach the purpose to the real-time sample of quality of water.

Preferably, the inner side surface of the mechanism wall is fixedly connected with an intercepting disc, the top of the inner side surface of the mechanism wall is fixedly connected with an air pump, and the bottom of the mechanism wall is fixedly connected with a composition detector.

Preferably, the position fixedly connected with ooff valve that interception dish surface is close to the air pump, the bottom fixed connection sample wall of composition detector, the bottom fixedly connected with damping piece of sample wall medial surface is used through the cooperation of mechanisms such as adjustment and control mechanism, detection mechanism and energy-conserving mechanism, has solved when needs use collection equipment to carry out real-time data acquisition to the water, and the problem of the motion of equipment can be hindered to objects such as superficial algae, the blade of surface of water.

Preferably, the surface of the blade is provided with a hole, the middle part of the surface of the connecting pipe is fixedly connected with a water level detector, and one end of the blade, which is far away from the rotor, is fixedly connected with a connecting table.

Preferably, the bottom of connecting the platform is rotated with the top of mechanism wall and is connected, the fixed surface of connecting the platform is connected with the thermal-collecting tube, connect the below position fixedly connected with doctor-bar on platform surface, this equipment is collected the rainwater through the flaring wall, and the rainwater passes through the connecting pipe and reachs the return bend, send the rainwater to the below position of intercepting dish through the return bend afterwards, after the air pump is with the inside water discharge of sample wall, open the ooff valve and let in the sample wall with the rainwater through the composition detector to utilize the rainwater to clear up the sample wall, the thermal-collecting tube can utilize solar energy to produce the heat and realize unfreezing to connecting the platform.

(III) advantageous effects

The invention provides a digital treatment remote sensing monitoring system. The method has the following beneficial effects:

(1) This remote sensing monitoring system is administered in digitization uses through the cooperation of mechanisms such as regulation and control mechanism, detection mechanism and energy-conserving mechanism, has solved when needs use collection equipment to carry out real-time data acquisition to the water, and the problem of the motion of equipment can be hindered to objects such as superficial algae, blade of surface of water.

(2) This remote sensing monitoring system is administered in digitization, in the device, the inside gas of rubber bag makes this data acquisition equipment can float at the surface of water, the fold on fold dish surface can increase the area of contact with the surface of water, thereby make this equipment float at the surface of water more steadily, can produce a reverse acting force when wind-force blows the blade and make the fold dish at surface of water reverse rotation and removal, this moment, first connecting wall and second are connected the wall and are driven the rotation through the floater of resistance strip with the surface of water, when the floater weight of connecting the wall interception is overweight, the elasticity strip is crooked, because centrifugal force, thereby the floater is thrown away and is connected the wall and realize breaking away from the floater.

(3) This remote sensing monitoring system is administered in digitization, the mechanism wall floats at the surface of water through the rubber bag, because the water is in mobile state, when needs take a sample to the water, can extract the inside gas of sample wall and discharge from the top position of mechanism wall through the air pump, because the damping of damping piece, the water is extracted and gets into the sample wall, and detect ammonia nitrogen through the composition detector, COD, BOD, SS and data such as Cu2+, later through letting in gas with water discharge sample wall to sample wall inside, thereby reach the purpose to the real-time sample of quality of water.

(4) This remote sensing monitoring system is administered in digitization, when the rubber bag floats when the surface of water, the great surface at the blade of blowing of wind-force of surface of water, the surface of blade is seted up porosely, thereby can show the weight that reduces the blade and make the blade blow by wind more easily, some power that the blade receives turns into fold wall pivoted power, this pivoted power is thrown away from the fold wall through the floater that the connecting wall hinders the surface of water, when the blade is blown, thereby can slightly rotate and use the doctor-bar to strike off the impurity on mechanism wall surface.

(5) This remote sensing monitoring system is administered in digitization, this equipment is collected the rainwater through the flaring wall, and the rainwater passes through the connecting pipe and reachs the return bend, send the rainwater to the below position of intercepting dish through the return bend afterwards, and after the air pump will sample the inside water discharge of wall, open the ooff valve and let in the sample wall with the rainwater through the composition detector to utilize the rainwater to clear up the sample wall, the thermal-collecting tube can utilize solar energy to produce the heat and realize unfreezing connecting the platform.

Drawings

FIG. 1 is a schematic flow diagram of a digital abatement remote sensing monitoring system of the present invention;

FIG. 2 is a schematic view of the overall structure of the data acquisition device of the present invention;

FIG. 3 is a schematic view of a partial structural connection of the data acquisition device of the present invention;

FIG. 4 is a schematic structural diagram of a regulating mechanism of the data acquisition device of the present invention;

FIG. 5 is a schematic structural diagram of a detection mechanism of the data acquisition device of the present invention;

FIG. 6 is a schematic view of the overall structure of the energy-saving mechanism of the data acquisition device of the present invention;

fig. 7 is a schematic view of a partial structure of an energy-saving mechanism of the data acquisition equipment.

In the figure: 1. a regulating mechanism; 11. a crumple tray; 12. a rubber bladder; 13. bending a pipe; 14. a first connecting wall; 15. a second connecting wall; 16. blocking strips; 17. an elastic strip; 2. a detection mechanism; 21. a mechanism wall; 22. an intercepting disc; 23. an on-off valve; 24. an air pump; 25. a component detector; 26. a sampling wall; 27. a damping block; 3. an energy-saving mechanism; 31. a flared wall; 32. a connecting pipe; 33. a water level detector; 34. a rotating body; 35. a blade; 36. a connecting table; 37. a heat collecting pipe; 38. and (4) scraping the blade.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1 to 7, the present invention provides a technical solution: a digital treatment remote sensing monitoring system comprises the following steps:

Data acquisition equipment, including regulation and control mechanism 1, the medial surface fixedly connected with detection mechanism 2 of regulation and control mechanism 1, the top fixedly connected with energy-conserving mechanism 3 of regulation and control mechanism 1, regulation and control mechanism 1 includes fold dish 11, the fixed surface of fold dish 11 is connected with rubber bag 12, the medial surface fixedly connected with return bend 13 of rubber bag 12, this equipment collects the rainwater through flaring wall 31, the rainwater reaches return bend 13 through connecting pipe 32, subsequently reach the lower position of intercepting dish 22 with the rainwater through return bend 13, after air pump 24 discharges the inside water of sampling wall 26, open switch valve 23 and let in the rainwater through composition detector 25 into sampling wall 26, thereby utilize the rainwater to clear up sampling wall 26, thermal-collecting tube 37 can utilize solar energy to produce heat and realize unfreezing to connecting platform 36, the fixed surface of rubber bag 12 is connected with first connecting wall 14, the one end rotation that first connecting wall 14 kept away from rubber bag 12 is connected with second connecting wall 15, the intermediate position fixedly connected with elastic strip 17 of the opposite face of first connecting wall 14 and second connecting wall 15, the fixed surface of first connecting wall 14 and the surface of second connecting wall 15 is connected with the inner side of intercepting wall 21, the fixed surface of elbow mechanism 21 is connected with the detection mechanism 21, the bottom end of elbow mechanism 21 is connected with the mechanism 2.

The position of the surface of the interception disc 22 close to the air pump 24 is fixedly connected with a switch valve 23, the bottom of the component detector 25 is fixedly connected with a sampling wall 26, the bottom of the inner side surface of the sampling wall 26 is fixedly connected with a damping block 27, the top of the inner side surface of the mechanism wall 21 is fixedly connected with the air pump 24, the bottom of the mechanism wall 21 is fixedly connected with the component detector 25, the surface of the mechanism wall 21 is fixedly connected with the surface of the elbow 13, the energy-saving mechanism 3 comprises a flaring wall 31, the matching use of mechanisms such as the regulating mechanism 1, the detecting mechanism 2 and the energy-saving mechanism 3 is adopted, the problem that when the acquisition equipment is required to acquire real-time data of a water body, floating algae on the water surface, blades 35 and other objects obstruct the movement of the equipment is solved, the surface of the flaring wall 31 is fixedly connected with a connecting pipe 32, the bottom end of the connecting pipe 32 is fixedly connected with the top of the rubber bag 12, the bottom of the flaring wall 31 is rotatably connected with a rotating body 34, the surface of the rotating body 34 is fixedly connected with blades 35, the surface of the blades 35 is provided with holes, the middle position of the surface of the connecting pipe 32 is fixedly connected with a water level detector 33, one end of the blades 35 far away from the connecting table 36 is fixedly connected with a connecting table 36, the rotating body 36 is fixedly connected with the rotating body 36, and the surface of the rotating body 36, and the rotating body 36 is connected with the lower surface of the rotating body 36, and the rotating body 36.

When in use: this remote sensing monitoring system is administered in digitization uses through the cooperation of mechanisms such as regulation and control mechanism 1, detection mechanism 2 and energy-conserving mechanism 3, has solved when needs use collection equipment to carry out real-time data acquisition to the water, and objects such as the superficial algae of surface of water, blade 35 can hinder the problem of the motion of equipment.

In the device, the inside gas of rubber bag 12 makes this data acquisition equipment can float on the surface of water, the fold on fold dish 11 surface can increase the area of contact with the surface of water, thereby make this equipment float on the surface of water more steadily, can produce a reverse action force when wind-force blows blade 35 and make fold dish 11 at the surface of water reverse rotation and removal, at this moment, first connecting wall 14 and second connecting wall 15 drive the floater of surface of water rotatory through resistance strip 16, when the floater weight that the connecting wall intercepted is overweight, elastic strip 17 is crooked, because centrifugal force, the floater is thrown away from the connecting wall and realize breaking away from the floater, mechanism wall 21 floats on the surface of water through rubber bag 12, because the water is in the flow condition, when needing to take a sample to the water, can extract the inside gas of sample wall 26 and discharge from the top position of mechanism wall 21 through air pump 24, because the damping effect of damping piece 27, the water is extracted and is got into sample wall 26, and detect through ammonia nitrogen composition detector 25, data such as BOD, COD, SS and Cu2+, later through letting in the inside gas of sample wall 26, thereby the real-time sample purpose of the water that the sample wall 26.

When the rubber bag 12 floats on the water surface, the wind force on the water surface blows the surface of the blade 35 greatly, holes are formed in the surface of the blade 35, the weight of the blade 35 can be reduced remarkably, so that the blade 35 is blown by the wind more easily, part of the force borne by the blade 35 is converted into the rotating force of the folded wall 11, the rotating force can throw floating objects blocked by the water surface away from the folded wall 11 through the connecting wall, the blade 35 can rotate slightly while being blown, so that impurities on the surface of the mechanism wall 21 are scraped by the scraping blades 38, the device collects rainwater through the flaring wall 31, the rainwater reaches the bent pipe 13 through the connecting pipe 32, then the rainwater is sent to the lower position of the blocking disc 22 through the bent pipe 13, after the air pump 24 discharges the water body in the sampling wall 26, the switch valve 23 is opened to lead the rainwater into the sampling wall 26 through the composition detector 25, so that the sampling wall 26 is cleaned by the rainwater, and the heat collection pipe 37 can generate heat by using solar energy and unfreeze the connecting table 36.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a remote sensing monitoring system is administered to digitization which characterized in that: the method comprises the following steps:

the method comprises the following steps of firstly, acquiring data, namely acquiring and monitoring water quality data in real time by using water quality real-time data acquisition equipment, displaying and positioning the water quality data on a system in a space mode by using the function of managing space data of a GIS (geographic information system), wherein the water quality data are distributed at different monitoring points or sampling points, instrument equipment of the monitoring sites can be remotely controlled, remote control commands supported by the system comprise remote sampling, measurement and cleaning of a water level detector and a component detector analyzer, and the real-time display of the data realizes the real-time display of river water quality monitoring data;

step two, analyzing and processing data, counting the maximum value, the minimum value and the average value of the river section, uniformly collecting in a table form, carrying out statistical analysis on the maximum value, the minimum value, the annual average value, the monthly average value, various standard pollution indexes, the river comprehensive pollution index, the pollution sharing rate and the pollution load ratio index of the river according to all section monitoring data of the monitored river, and realizing data query, import and export operations by all analysis statistical data reports;

comparing historical data, namely collecting the data detected in real time, supporting the function of statistical analysis on the historical data and exporting the query result to files in the formats of EXCEL, PDF and RTF, realizing real-time comparison on the historical data of the monitored data by statistical analysis, and automatically forming a visual chart by integrating the current data with the historical data through visual software;

step four, intelligently alarming and early warning, wherein the system obtains a river water quality standard according to the setting of a user, compares the obtained water quality monitoring data with the river water quality standard, displays the standard exceeding in real time, can judge whether the system is normal or not, immediately starts a fault processing program to alarm once a problem occurs, can start an emergency task according to the requirement, timely notifies the pollution condition, and sends out early warning to the polluted area;

the real-time data acquisition equipment in the first step comprises a regulating and controlling mechanism (1), wherein the inner side surface of the regulating and controlling mechanism (1) is fixedly connected with a detection mechanism (2), the top of the regulating and controlling mechanism (1) is fixedly connected with an energy-saving mechanism (3), the regulating and controlling mechanism (1) comprises a fold disc (11), the surface of the fold disc (11) is fixedly connected with a rubber bag (12), the inner side surface of the rubber bag (12) is fixedly connected with a bent pipe (13), and the surface of the rubber bag (12) is fixedly connected with a first connecting wall (14);

the detection mechanism (2) comprises a mechanism wall (21), the surface of the mechanism wall (21) is fixedly connected with the surface of the elbow (13), the inner side surface of the mechanism wall (21) is fixedly connected with an intercepting disc (22), the top of the inner side surface of the mechanism wall (21) is fixedly connected with an air pump (24), and the bottom of the mechanism wall (21) is fixedly connected with a component detector (25);

a switch valve (23) is fixedly connected to the surface of the interception disc (22) close to the air pump (24), the bottom of the component detector (25) is fixedly connected with a sampling wall (26), and the bottom of the inner side surface of the sampling wall (26) is fixedly connected with a damping block (27);

energy-conserving mechanism (3) are including flaring wall (31), the fixed surface of flaring wall (31) is connected with connecting pipe (32), the bottom of connecting pipe (32) and the top fixed connection of rubber bag (12), the bottom of flaring wall (31) is rotated and is connected with rotor (34), the fixed surface of rotor (34) is connected with blade (35).

2. The digital treatment remote sensing monitoring system of claim 1, wherein: one end, far away from rubber bag (12), of first connecting wall (14) rotates and is connected with second connecting wall (15), the intermediate position fixedly connected with elasticity strip (17) of first connecting wall (14) and second connecting wall (15) opposite face.

3. The digital treatment remote sensing monitoring system of claim 2, wherein: the surfaces of the first connecting wall (14) and the second connecting wall (15) are fixedly connected with a blocking strip (16), and the interior of the elbow (13) is communicated with the interior of the connecting pipe (32) through the rubber bag (12).

4. The digital treatment remote sensing monitoring system of claim 1, wherein: the surface of the blade (35) is provided with a hole, the middle position of the surface of the connecting pipe (32) is fixedly connected with a water level detector (33), and one end of the blade (35) far away from the rotating body (34) is fixedly connected with a connecting table (36).

5. The digital treatment remote sensing monitoring system of claim 4, wherein: the bottom of the connecting table (36) is rotatably connected with the top of the mechanism wall (21), the surface of the connecting table (36) is fixedly connected with a heat collecting pipe (37), and the lower position of the surface of the connecting table (36) is fixedly connected with a scraping blade (38).