CN111045115A - System and method for judging meteorological conditions - Google Patents

Abstract

The invention has proposed a system and method for judging the meteorological condition, through setting up the backstage server, obtain the real-time meteorological parameter of the field of emission source that the meteorological parameter measuring equipment gathers in real time and transmit to the user end, the user end APP calculates the total fitness of the current meteorological condition in real time and meets the sampling requirement, if meet the requirement, give and begin the sampling prompt, according to the change of the meteorological condition in the field, can judge the total fitness of the current meteorological condition meets the sampling requirement fast, and give the information whether it needs to stop sampling; in addition, the invention provides a mode of positioning by adopting a smart phone or a tablet personal computer and a mode of positioning by using a single wireless positioning device, and the two modes can be flexibly selected and are convenient and quick.

Description

System and method for judging meteorological conditions

Technical Field

The invention relates to the field of atmospheric pollutant detection, in particular to a system and a method for judging meteorological conditions.

Background

According to the regulations of GB 16297-. The basic way of sampling is to specify the set-up of the monitoring points and the air concentration limits that specify the monitoring points. In GB 16297-.

For sampling detection of an unorganized emission source, the following steps are generally included:

(1) monitoring the on-site meteorological conditions (including wind direction, wind speed, temperature, humidity and atmospheric pressure) of the unorganized emission source in real time;

(2) determining whether sampling is suitable at present according to on-site meteorological conditions, and if the sampling is suitable, determining a monitoring point arrangement area and a reference point arrangement area;

(3) and respectively setting monitoring points and reference points in the monitoring point arrangement area and the reference point arrangement area for sampling. In the process, when the field meteorological conditions do not meet the sampling conditions, stopping sampling; and stopping sampling when the real-time coordinate positions of the monitoring points and the reference points fall outside the arrangement area of the monitoring points and the arrangement area of the reference points.

It follows that sampling may need to be stopped at any time subject to changes in the weather conditions in the field. Therefore, the method for monitoring whether the inorganization emission of the atmospheric pollutants is suitable for sampling can meet the requirement of constantly changing meteorological conditions.

Disclosure of Invention

In view of this, the invention provides a system and a method for judging meteorological conditions, which can quickly judge whether the monitoring of the unorganized emission of atmospheric pollutants is suitable for sampling.

The technical scheme of the invention is realized as follows:

in one aspect, the invention provides a system for judging meteorological conditions, which comprises a meteorological parameter measuring device (1), a background server (2) and a user terminal (4),

the meteorological parameter measuring equipment (1) is in wireless signal connection with the background server (2), acquires real-time meteorological parameters of an emission source site and transmits the real-time meteorological parameters to the background server (2);

the background server (2) stores and forwards data;

and the user side (4) is in wireless signal connection with the background server (2) and loads a user side APP, the user side APP calculates whether the total suitability of the current meteorological conditions meets the sampling requirement in real time according to the real-time meteorological parameters of the emission source site acquired from the background server (2), and if the total suitability meets the sampling requirement, a sampling start prompt is given.

On the basis of the technical scheme, preferably, the real-time meteorological parameters comprise wind direction, wind speed, temperature, humidity and atmospheric pressure, the user side APP is used for manually inputting cloud amount information, and the meteorological parameter measuring equipment (1) is selected to be located in rural areas or urban areas currently.

Further preferably, the system also comprises a wireless positioning device (3) which is in wireless signal connection with the background server (2) and acquires the geographic coordinates of the position and transmits the geographic coordinates to the background server (2); the user side APP comprises an electronic map, and on one hand, the user side APP acquires the geographic coordinates sent by the wireless positioning equipment (3) and marks and displays the position of the emission source on the electronic map; on the other hand, the user side APP is used for manually inputting the height of the emission source and the height of the meteorological parameter measuring equipment (1), calculating the arrangement area of the monitoring point and the arrangement area of the reference point in real time, and marking and displaying the monitoring point and the reference point on the electronic map.

Further preferably, the system further comprises a sampling device (5) arranged at the monitoring point and the reference point, wherein the user side APP acquires the geographic coordinates sent by the wireless positioning device (3), and marks and displays the positions of the monitoring point and the reference point on the electronic map.

Still further preferably, a plurality of monitoring points and reference points are arranged, when the monitoring points and the reference points are arranged and exceed the set time, a user side APP captures the electronic map and uploads the electronic map to a background server (2) for storage, and the single screenshot comprises a monitoring point arrangement area and a reference point arrangement area, an emission source position, a monitoring point and a reference point position.

Still further preferably, for the monitoring points and the reference points selected in the monitoring point arrangement area and the reference point arrangement area, a color icon is adopted on the user side APP electronic map for marking and displaying; the user side APP compares the monitoring point and the reference point position with the current monitoring point arrangement region and the current reference point arrangement region, and when the monitoring point and the reference point position fall outside the current monitoring point arrangement region and the current reference point arrangement region, the user side APP adopts another color icon for marking and displaying.

Still further preferably, when the monitoring point and the reference point are located outside the current monitoring point arrangement area and the current reference point arrangement area, the user side APP captures the electronic map and uploads the captured electronic map to the background server (2) for storage, and the single captured image comprises the monitoring point arrangement area and the reference point arrangement area, the emission source position, the monitoring point and the reference point position.

Further preferably, the wireless positioning device (3) adopts a smart phone or a tablet personal computer, and adopts a self-contained positioning module to acquire the geographic coordinates of the position of the meteorological parameter measuring device (1) and send the geographic coordinates to the background server (2) through a wireless network.

It is still further preferred that the first and second substrates,

the background server (2) stores the equipment identity identification information of the wireless positioning equipment (3);

the wireless positioning equipment (3) displays a two-dimensional code representing equipment identity identification after being started;

and the user side (4) scans the two-dimensional code, performs identity recognition by accessing the background server (2), and after the identity recognition authentication is successful, the background server (2) transmits the geographic coordinate acquired by the wireless positioning equipment (3) to the corresponding user side APP and displays the geographic coordinate on the electronic map.

In a second aspect, the present invention provides a method for determining meteorological conditions, using the system of the first aspect of the present invention, comprising the steps of,

s1, connecting the meteorological parameter measuring equipment (1) with the background server (2) in a wireless signal manner, acquiring real-time meteorological parameters of an emission source site and transmitting the real-time meteorological parameters to the background server (2);

s2, a background server (2) stores the real-time meteorological parameters of the emission source site and forwards the meteorological parameters to a user side (4);

s3, loading a user side APP by the user side (4), calculating whether the total suitability of the current meteorological conditions meets the sampling requirement in real time according to the real-time meteorological parameters of the emission source site acquired from the background server (2), and giving a sampling starting prompt if the total suitability of the current meteorological conditions meets the sampling requirement.

Compared with the prior art, the system and the method for judging the meteorological conditions have the following beneficial effects:

(1) the method comprises the steps that a background server is arranged, real-time meteorological parameters of an emission source field collected by meteorological parameter measuring equipment are obtained in real time and are forwarded to a user side, the user side APP calculates whether the total suitability of the current meteorological conditions meets the sampling requirement or not in real time, if yes, a sampling starting prompt is given, according to the change of the field meteorological conditions, whether the total suitability of the current meteorological conditions meets the sampling requirement or not can be judged quickly, and information about whether sampling needs to be stopped or not is given;

(2) in addition, the invention provides a mode of positioning by adopting a smart phone or a tablet personal computer and a mode of positioning by using a single wireless positioning device, and the two modes can be flexibly selected and are convenient and quick;

(3) before sampling begins, automatically storing screenshots for future reference;

(4) when the monitoring point arrangement area and the reference point arrangement area are changed, and when the monitoring point and the reference point are positioned outside the current monitoring point arrangement area and the current reference point arrangement area, the monitoring point and the reference point marks can be distinguished by adopting different colors, and the abnormity can be quickly judged and the files can be searched by matching with automatic screenshot.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a perspective view of a meteorological parameter measurement apparatus of the present invention;

FIG. 2 is a perspective view of a wireless positioning device of the present invention;

FIG. 3 is a state diagram of an embodiment of the present invention;

FIG. 4 is a state diagram of an embodiment of the present invention;

FIG. 5 is a state diagram of an embodiment of the present invention;

fig. 6 is a schematic diagram of the connection relationship of the system for monitoring the inorganization emission of atmospheric pollutants according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, and fig. 2 and fig. 6, the system for determining weather conditions of the present invention includes a weather parameter measuring device 1, a background server 2, a wireless positioning device 3, a user terminal 4 and a sampling device 5.

The meteorological parameter measuring equipment 1 is used for collecting real-time meteorological parameter data and transmitting the real-time meteorological parameter data to the background server 2. Specifically, the real-time meteorological parameters include wind direction, wind speed, temperature, humidity and atmospheric pressure. Specifically, meteorological parameter monitoring equipment 1 can adopt current five parameter test appearance of meteorological phenomena, as shown in fig. 1, and it includes wind speed sensor, wind direction sensor, temperature sensor, humidity transducer and atmospheric pressure sensor, in addition, still is equipped with the antenna, with wind direction, wind speed, temperature, humidity and atmospheric pressure data transfer to backend server 2.

And the background server 2 is used for storing, calculating and forwarding data. In this embodiment, a cloud storage is used to store the sample data.

The wireless positioning device 3, which can be provided separately as shown in fig. 2, can also be bound with the meteorological parameter measuring device 1 and the sampling device 5. The wireless positioning device 3 can adopt a GPS positioning module or a Beidou positioning module. Specifically, the user terminal 4 equipped with the automatic positioning function may be used instead.

The user end 4 generally adopts a smart phone or a smart tablet computer, and when the user end 4 needs to be adopted to realize field positioning, the smart phone or the smart tablet computer provided with a positioning module needs to be equipped. User side 4 loads user side APP, user side APP includes the electronic map.

The sampling device 5 is selected according to the type of the specific sampled emissions.

The method of determining weather conditions of the present invention is described below.

Firstly, whether the total suitability of the current meteorological conditions meets the sampling requirement needs to be judged. The method specifically comprises the following steps:

s1, connecting the meteorological parameter measuring equipment 1 with the background server 2 through wireless signals, acquiring real-time meteorological parameters of an emission source site and transmitting the real-time meteorological parameters to the background server 2;

s2, the background server 2 stores the real-time meteorological parameters of the emission source site and forwards the meteorological parameters to the user terminal 4;

s3, loading a user side APP by the user side 4, calculating whether the total suitability of the current meteorological conditions meets the sampling requirement in real time according to the real-time meteorological parameters of the emission source site obtained from the background server 2, and giving a sampling start prompt if the total suitability of the current meteorological conditions meets the sampling requirement. Specifically, the calculation for judging whether the total suitability of the current meteorological conditions meets the sampling requirement can be realized by the guidance of the inorganization emission monitoring technology for atmospheric pollutants (HJ/T55-2000), which belongs to the prior art and is not described herein again. Specifically, the parameters required for calculating whether the total suitability of the current meteorological conditions meets the sampling requirement include wind direction, wind speed, temperature, humidity, atmospheric pressure and cloud cover information, and the meteorological parameter measuring device 1 is currently located in a rural area or an urban area; wherein, the wind direction, wind speed, temperature, humidity and atmospheric pressure parameters can be acquired in real time by adopting the meteorological parameter measuring equipment 1, and the cloud cover information and the information of the meteorological parameter measuring equipment 1 which is currently located in rural areas or urban areas are manually input through a user side APP.

Next, positioning the meteorological parameter measurement device 1 specifically includes the following steps:

the meteorological parameter measuring equipment 1 and the wireless positioning equipment 3 are arranged near the emission source site, and at the moment, the geographic coordinates acquired by the wireless positioning equipment 3 are the coordinates of the meteorological parameter measuring equipment 1. The wireless positioning device 3 is in wireless signal connection with the background server 2, and the user terminal 4 acquires the geographic coordinates sent by the wireless positioning device 3 and marks and displays the position of the emission source on the electronic map, as shown in fig. 3.

The invention provides two ways of positioning the meteorological parameter measuring equipment 1:

firstly, the wireless positioning device 3 can adopt a smart phone or a tablet personal computer, and the smart phone or the tablet personal computer adopts a self-contained positioning module to acquire the geographic coordinates of the position of the meteorological parameter measuring device 1 and sends the geographic coordinates to the background server 2 through a wireless network. Specifically, the current position geographic coordinate may be acquired by using an electronic map provided on the smart phone or the tablet computer, and then sent to the background server 2 through the mobile phone communication software. For example, the map coordinate position can be directly shared to the background server 2 through WeChat and QQ. And after acquiring the geographic coordinates sent by the wireless positioning equipment 3, the user side 4 displays the geographic coordinates on an APP electronic map of the user side, and manually marks the emission source represented by the coordinate mark. In the above manner, a plurality of emission sources may be provided.

Secondly, a special wireless positioning device 3 is adopted, the wireless positioning device 3 can be bound with the meteorological parameter measuring device 1 or the sampling device 5, and the geographic coordinates of the meteorological parameter measuring device 1 or the sampling device 5 are collected; of course, the wireless positioning device 3 may be provided separately from the meteorological parameter measuring device 1 or the sampling device 5. For the wireless positioning device 3, when establishing communication with the background, the identity of the wireless positioning device needs to be identified, and considering that the wireless positioning device 3 needs to use a plurality of wireless positioning devices, the invention provides a code scanning mode for identity identification, which is specifically as follows:

the background server 2 stores the equipment identity identification information of the wireless positioning equipment 3;

the wireless positioning equipment 3 displays a two-dimensional code representing equipment identity identification after being started;

and the user side 4 scans the two-dimensional code, performs identity recognition by accessing the background server 2, and after the identity recognition authentication is successful, the background server 2 transmits the geographic coordinates acquired by the wireless positioning equipment 3 to the corresponding user side APP, displays the geographic coordinates on the electronic map, and manually marks the emission source represented by the coordinate mark. In the above manner, a plurality of emission sources may be provided.

Therefore, communication with the wireless positioning equipment 3 can be quickly established only by holding the user terminal 4 and scanning the two-dimensional code on the wireless positioning equipment 3, and the geographic coordinates sent by the wireless positioning equipment 3 are acquired in real time.

Then, calculating a monitoring point arrangement area and a reference point arrangement area, specifically comprising the following steps:

and the user side APP is used for manually inputting the height of the emission source and the height of the meteorological parameter measuring equipment 1, calculating the arrangement area of the monitoring point and the arrangement area of the reference point in real time, and marking and displaying on the electronic map.

Specifically, the real-time meteorological parameters include wind direction, wind speed, temperature, humidity and atmospheric pressure. Since the calculation of the monitoring point arrangement area and the reference point arrangement area is not affected by the wind direction, the wind speed, the temperature, the humidity, and the atmospheric pressure, it is also affected by the following parameters: cloud cover information, emission source height and meteorological parameter measuring equipment 1 height, meteorological parameter measuring equipment 1 is currently located in rural or urban areas. The parameters can only be manually input through a sampling detection person through a user side APP according to the actual situation on site. Specifically, the calculation of the monitoring point arrangement region and the reference point arrangement region can be realized by the guidance of the unstructured emission monitoring technology for atmospheric pollutants (HJ/T55-2000), which belongs to the prior art and is not described herein again. In general, the graphs of the monitoring point arrangement region and the reference point arrangement region on the electronic map are two sectors centered on the discharge source position, as shown in fig. 3.

Then, the sampling device 5 needs to be set and positioned, and then sampling monitoring is started. The method specifically comprises the following steps: the sampling device 5 and the wireless positioning device 3 are arranged at a monitoring point and a reference point, and at this time, the geographic coordinates acquired by the wireless positioning device 3 are the coordinates of the sampling device 5, as shown in fig. 4. The wireless positioning device 3 is in wireless signal connection with the background server 2, the user terminal 4 obtains the geographic coordinates sent by the wireless positioning device 3, marks and displays the position of the sampling device 5 on the electronic map, and manually marks the sampling device 5 corresponding to the position pair. Specifically, the two positioning manners of the meteorological parameter measuring device 1 according to the foregoing embodiments of the present invention can also be adopted for the positioning manner of the sampling device 5, and are not described herein again.

In the sampling process, at least three screenshots need to be intercepted and stored as sampling data:

the first one, after the arrangement of all monitoring points and reference points is completed;

the second sheet is intercepted in the sampling process;

and thirdly, screenshot is obtained when the sampling is about to end.

For the first screenshot, an automatic screenshot mode can be adopted, and the specific mode is as follows:

a plurality of is arranged to monitoring point and reference point, and after the monitoring point and reference point were arranged and are accomplished and surpassed the settlement time, user side APP carries out the screenshot to electronic map and uploads background server 2 and save, the sola screenshot contains monitoring point and arranges that the region is arranged to the region and reference point, emission source position, monitoring point and reference point position.

In addition, when the meteorological conditions change, the monitoring point arrangement area and the reference point arrangement area also change, so that the monitoring points and the reference points which are originally arranged may move out of the monitoring point arrangement area and the reference point arrangement area. For the above screenshots, since additional screenshots are added, it is necessary to distinguish the screenshots, which facilitates quick search. In view of the above situation, the present invention provides a convenient and fast search method, which comprises the following steps:

for the monitoring points and the reference points selected in the monitoring point arrangement area and the reference point arrangement area, marking and displaying the monitoring points and the reference points on the APP electronic map of the user side by adopting a color icon, as shown in FIG. 4; the user side APP compares the monitoring point and the reference point position with the current monitoring point arrangement region and the current reference point arrangement region, and when the monitoring point and the reference point position fall outside the current monitoring point arrangement region and the current reference point arrangement region, the user side APP adopts another color icon for marking display, as shown in fig. 5. Therefore, whether the monitoring point and the reference point fall outside the current monitoring point arrangement area and the current reference point arrangement area can be quickly judged only by observing the colors of the icons of the monitoring point and the reference point. The specific screenshot mode is as follows:

when the monitoring point and the reference point position fall outside the current monitoring point arrangement area and the current reference point arrangement area, the user side APP captures the electronic map and uploads the electronic map to the background server 2 for storage, and the single screenshot contains the monitoring point arrangement area and the reference point arrangement area, the emission source position, the monitoring point and the reference point position.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A system for determining weather conditions, comprising: which comprises a meteorological parameter measuring device (1), a background server (2) and a user terminal (4),

the meteorological parameter measuring equipment (1) is in wireless signal connection with the background server (2), acquires real-time meteorological parameters of an emission source site and transmits the real-time meteorological parameters to the background server (2);

the background server (2) stores and forwards data;

and the user side (4) is in wireless signal connection with the background server (2) and loads a user side APP, the user side APP calculates whether the total suitability of the current meteorological conditions meets the sampling requirement in real time according to the real-time meteorological parameters of the emission source site acquired from the background server (2), and if the total suitability meets the sampling requirement, a sampling start prompt is given.

2. The system for determining meteorological conditions according to claim 1, wherein: the real-time meteorological parameters comprise wind direction, wind speed, temperature, humidity and atmospheric pressure, a user side APP is used for manually inputting cloud cover information, and the meteorological parameter measuring equipment (1) is selected to be located in rural areas or urban areas currently.

3. A system for determining meteorological conditions according to claim 2, wherein: the wireless positioning device (3) is in wireless signal connection with the background server (2), acquires the geographic coordinates of the position and transmits the geographic coordinates to the background server (2); the user side APP comprises an electronic map, and on one hand, the user side APP acquires the geographic coordinates sent by the wireless positioning equipment (3) and marks and displays the position of the emission source on the electronic map; on the other hand, the user side APP is used for manually inputting the height of the emission source and the height of the meteorological parameter measuring equipment (1), calculating the arrangement area of the monitoring point and the arrangement area of the reference point in real time, and marking and displaying the monitoring point and the reference point on the electronic map.

4. A system for determining weather conditions as claimed in claim 3, wherein: still include sampling equipment (5), set up in monitoring point and reference point, user side APP obtains the geographical coordinate that wireless positioning device (3) sent to mark display monitoring point and reference point position on the electronic map.

5. The system for determining meteorological conditions according to claim 4, wherein: a plurality of is arranged to monitoring point and reference point, and after the monitoring point and reference point were arranged and are accomplished and surpassed the settlement time, user side APP carries out the screenshot to electronic map and uploads background server (2) and stores, the sola screenshot contains monitoring point and arranges the region, discharges source position, monitoring point and reference point position with the reference point.

6. The system for determining meteorological conditions according to claim 4, wherein: for monitoring points and reference points selected in the monitoring point arrangement area and the reference point arrangement area, marking and displaying the monitoring points and the reference points on the APP electronic map of the user side by adopting a color icon; the user side APP compares the monitoring point and the reference point position with the current monitoring point arrangement region and the current reference point arrangement region, and when the monitoring point and the reference point position fall outside the current monitoring point arrangement region and the current reference point arrangement region, the user side APP adopts another color icon for marking and displaying.

7. The system for determining meteorological conditions according to claim 6, wherein: when the monitoring point and the reference point are located outside the current monitoring point arrangement area and the current reference point arrangement area, a user side APP captures the electronic map and uploads the electronic map to a background server (2) for storage, and the single captured image contains the monitoring point arrangement area and the reference point arrangement area, the emission source position, the monitoring point and the reference point position.

8. A system for determining weather conditions as claimed in claim 3, wherein: the wireless positioning device (3) adopts a smart phone or a tablet personal computer, and adopts a self-contained positioning module to acquire the geographic coordinates of the position of the meteorological parameter measuring device (1) and send the geographic coordinates to the background server (2) through a wireless network.

9. A system for determining weather conditions as claimed in claim 3, wherein:

the background server (2) stores the equipment identity identification information of the wireless positioning equipment (3);

the wireless positioning equipment (3) displays a two-dimensional code representing equipment identity identification after being started;

and the user side (4) scans the two-dimensional code, performs identity recognition by accessing the background server (2), and after the identity recognition authentication is successful, the background server (2) transmits the geographic coordinate acquired by the wireless positioning equipment (3) to the corresponding user side APP and displays the geographic coordinate on the electronic map.

10. A method for determining weather conditions, comprising: the system of claim 1, comprising the steps of,

s1, connecting the meteorological parameter measuring equipment (1) with the background server (2) in a wireless signal manner, acquiring real-time meteorological parameters of an emission source site and transmitting the real-time meteorological parameters to the background server (2);

s2, a background server (2) stores the real-time meteorological parameters of the emission source site and forwards the meteorological parameters to a user side (4);

s3, loading a user side APP by the user side (4), calculating whether the total suitability of the current meteorological conditions meets the sampling requirement in real time according to the real-time meteorological parameters of the emission source site acquired from the background server (2), and giving a sampling starting prompt if the total suitability of the current meteorological conditions meets the sampling requirement.

Images