CN111158321A - Environment manual sampling quality control system and method based on mobile network - Google Patents

Abstract

The invention discloses an environment manual sampling quality control system and method based on a mobile network, belonging to the field of environment sampling, wherein a sampling instrument, a mobile phone terminal and a server are taken as hardware bases, the environment manual sampling is monitored, a sampling log is formed, the sampling process can be objectively evaluated, the system comprises the server, the mobile phone terminal and at least one sampling instrument, a small program is installed on the mobile phone terminal, and the server deploys environment manual sampling finger monitoring software; the mobile phone terminal is connected with the server through a wireless communication network to realize bidirectional data transmission; each sampling instrument corresponds to a unique two-dimensional code, and the mobile phone terminal acquires the two-dimensional code of the sampling instrument through a wireless communication network so as to send real-time data information of the sampling instrument to the server; the server sends timing reminding information to the mobile phone terminal according to the real-time data information of the sampling instrument; and the server forms a visual sampling log according to the data information of the sampling instrument. The invention is suitable for quality control of environment manual sampling.

Description

Environment manual sampling quality control system and method based on mobile network

Technical Field

The invention relates to a quality control system, in particular to an environment manual sampling quality control system and method based on a mobile network.

Background

Environmental monitoring is the basis of environmental protection, and is an important means for environmental law enforcement and evaluation of the current situation and change trend of environmental quality. The environment monitoring technology in China starts late, about twenty-century seventies, and the environment monitoring business in China starts to start, but the development is faster in recent years, and great progress is made. The development to the depth and the breadth is continued, and great achievement is achieved.

At present, various national environmental standards 410 are established in China, and the fields of atmosphere, water quality, soil, noise, radiation, solid waste, pesticides and the like are covered. Environmental quality monitoring, environmental quality weekly reporting, daily reporting, forecast monitoring have been developed; pollution source monitoring, pollution accident emergency monitoring, pollutant total amount control monitoring, pollution source analysis monitoring, environmental pollution treatment engineering effect monitoring and the like. The pollution factors to be monitored are more than hundreds of types, but the detection and analysis technical standards of most pollution factors are still based on a laboratory method at present, and the continuous automatic detection and analysis technical standards only cover a small part of the pollution factors.

Under the influence of economic conditions and other factors in China, the investment of environmental monitoring in China is increased and built more quickly, but due to the conditions of technical equipment and the like, the current environmental detection is mainly manual sampling and laboratory analysis, and continuous automatic detection cannot be fully covered due to the reasons of cost, technical level, standards and the like. However, manual sampling is limited by the skill level of the personnel, the accuracy of the sampling instrument, the transportation and other conditions, and results of sample analysis can be subject to errors of different degrees.

At present, the following problems mainly exist in the manual environmental sampling: at present, no objective and effective method is available for carrying out quality control on the sampling process, the accurate position of the manual environmental sampling is difficult to accurately obtain, and the environmental sampling personnel are difficult to supervise.

Disclosure of Invention

The invention aims to provide an environment manual sampling quality control system based on a mobile network, which takes a sampling instrument, a mobile phone terminal and a server as hardware bases, develops a WeChat applet and environment manual sampling finger monitoring software, monitors environment manual sampling, forms a sampling log and can objectively evaluate the sampling process.

The technical purpose of the invention is realized by the following technical scheme:

a mobile network-based environment manual sampling quality control system is characterized by comprising a server, a mobile phone terminal and at least one sampling instrument, wherein a small program is installed on the mobile phone terminal, and the server deploys environment manual sampling finger monitoring software;

the mobile phone terminal is connected with the server through a wireless communication network to realize bidirectional data transmission;

each sampling instrument corresponds to a unique two-dimensional code, and the mobile phone terminal acquires the two-dimensional code of the sampling instrument through a wireless communication network so as to send real-time data information of the sampling instrument to the server;

the server sends timing reminding information to the mobile phone terminal according to the real-time data information of the sampling instrument;

and the server forms a visual sampling log according to the data information of the sampling instrument.

Furthermore, the two-dimensional code is fixed on each sampling instrument, and the two-dimensional code corresponding to each sampling instrument is generated by the instrument name, model and serial number corresponding to each sampling instrument.

Further, the visual sampling log comprises information of a sampling instrument, information of a sampling person, information of a sampling place, information of sampling time, information of a sampling intermediate process and sample information.

Further, the information sent by the applet to the server at least comprises sampling time and sampling place information, character information and image information.

The device comprises a sample container, a sample box, a pressure sensor, a timing module, a microprocessor and a power supply device, wherein the pressure sensor, the timing module, the microprocessor and the power supply device are arranged in the sample box;

the sample container is arranged in the sample box, a plurality of fixing grooves for assisting the sample container to be fixed are formed in the sample box, and the pressure sensor is arranged at the bottom of each fixing groove and used for collecting the pressure of the sample container;

the power supply device is connected with the microprocessor, the microprocessor is respectively connected with the pressure sensor and the timing module, and the microprocessor is connected with the server through a wireless communication network.

Further, the sample control device adopts the following control method:

a1: putting a sampling sample into a sampling sample container, and putting the sampling sample container into a fixing groove of a sample box;

a2: the pressure sensor collects the pressure value of the sample container and transmits the pressure value to the microprocessor, and when the collected pressure value is larger than a preset value, the timing module is started, wherein the preset value is the pressure value collected by the pressure sensor when the sample container is not placed;

a3: the timing module is used for timing the storage time of the sampling samples, and when the storage time acquired by the timing module is greater than or equal to a preset time, the microprocessor sends a reminding message to the server, wherein the preset time is the optimal storage time of each sampling sample;

a4: and the server sends the received reminding information to the mobile phone terminal.

The invention has the following beneficial effects:

the invention utilizes the mobile phone terminal to acquire information of environment manual sampling position, sampling duration period, monitoring factors, sampling instruments and the like, and monitors and records the sampling process. The method comprises the steps of installing a small program on a mobile phone terminal, uploading information such as a sampling position, a sampling time period, a monitoring factor, a sampling instrument and the like to monitoring software installed on a PC (personal computer) terminal through functions such as shooting, coordinate positioning, time recording and the like of the mobile phone terminal, and a quality management and control department can supervise and assess whether environment sampling personnel perform environment sampling according to an environment monitoring scheme and technical specifications through the monitoring software.

The second purpose of the invention is to provide an environment manual sampling quality control method based on a mobile network, which establishes a set of quality control method including manual sampling operation specification and monitoring factor sampling requirement based on an environment manual sampling quality control system, prevents environment manual sampling personnel from operating illegally, controls sampling time and place and other factors, and reduces errors caused by manual intervention.

A manual environment sampling quality control method based on a mobile network comprises the following steps:

s1: distributing numbers to different sampling task names and placing small programs, wherein the small programs are WeChat small programs;

s2: taking the sampling instrument out of the warehouse: opening an applet installed on a mobile phone terminal, logging in an account, inputting a sampling task name, acquiring a sampling number, scanning a two-dimensional code of a sampling instrument by the mobile phone terminal, acquiring the name, the model and the ex-warehouse time information of the instrument, submitting and sending the information to a server;

s3: the sampling instrument used: the method comprises the steps of arriving at a specified sampling place, installing a sampling instrument and a sample container, opening an applet, logging in an account, inputting the name of a collected sample, acquiring the number of the sample, scanning a two-dimensional code of the sampling instrument by a mobile phone terminal, uploading the geographic information of the sampling place and the sampling start time, filling in a sampling person, shooting an uploaded sampling start picture, submitting the picture and sending the picture to a server;

s4: warehousing a sampling instrument: after sampling is finished, returning the sampling instrument, opening the small program and logging in an account, scanning the two-dimensional code of the sampling instrument by the mobile phone terminal, uploading the name, the model and the returning time of the instrument, submitting and sending the name, the model and the returning time of the instrument to a server;

s5: the server forms a visual sampling log through environment manual sampling finger monitoring software, and reflects sampling instrument information, sampling time and sampling place information and sampling personnel information of each stage of warehouse-out and warehouse-in of the sampling instrument.

Further, after S3, S6:

s6: the small program prompts a sampling person, takes a picture of a sampling instrument at an intermediate sampling period, uploads the picture and time, submits the picture and sends the picture to the server, and the environment manual sampling refers to that monitoring software records various information at the intermediate sampling stage.

Further, after S6, S7:

s7: the small program prompts a sampling person to perform sampling technology, photographs of the sampling instrument after sampling is finished are shot, the photographs and time are uploaded and submitted to a server, and manual environment sampling refers to that monitoring software records various information after sampling is finished.

Further, the method comprises the following steps:

c1: distributing numbers to different sampling task names and placing small programs;

c2: taking the sampling instrument out of the warehouse: opening an applet installed on a mobile phone terminal, logging in an account, inputting a sampling task name, acquiring a sampling number, scanning a two-dimensional code of a sampling instrument by the mobile phone terminal, acquiring the name, the model and the ex-warehouse time information of the instrument, submitting and sending the information to a server;

c3: the sampling instrument used: the method comprises the steps of arriving at a specified sampling place, installing a sampling instrument and a sample container, opening an applet, logging in an account, inputting the name of a collected sample, acquiring the number of the sample, scanning a two-dimensional code of the sampling instrument by a mobile phone terminal, uploading the geographic information of the sampling place and the sampling start time, filling in a sampling person, shooting an uploaded sampling start picture, submitting the picture and sending the picture to a server;

c4: the small program prompts a sampling person, takes a picture of a sampling instrument at an intermediate sampling period, uploads the picture and time, submits the picture and sends the picture to the server, and the environment manual sampling refers to that monitoring software records various information at the intermediate sampling stage.

C5: the small program prompts a sampling person to perform sampling technology, photographs of the sampling instrument after sampling is finished are shot, the photographs and time are uploaded and submitted to a server, and manual environment sampling refers to that monitoring software records various information after sampling is finished.

C6: warehousing a sampling instrument: after sampling is finished, returning the sampling instrument, opening the small program and logging in an account, scanning the two-dimensional code of the sampling instrument by the mobile phone terminal, uploading the name, the model and the returning time of the instrument, submitting and sending the name, the model and the returning time of the instrument to a server;

c7: the server forms a visual sampling log through environment manual sampling finger monitoring software, and reflects sampling instrument information, sampling time and sampling place information and sampling personnel information of each stage of warehouse-out and warehouse-in of the sampling instrument.

C8; storing the sampling samples: putting a sampling sample into a sampling sample container, and putting the sampling sample container into a fixing groove of a sample box;

c9: the pressure sensor collects the pressure value of the sample container and transmits the pressure value to the microprocessor, and when the collected pressure value is larger than a preset value, the timing module is started, wherein the preset value is the pressure value collected by the pressure sensor when the sample container is not placed;

c10: the timing module is used for timing the storage time of the sampling samples, and when the storage time acquired by the timing module is greater than or equal to a preset time, the microprocessor sends a reminding message to the server, wherein the preset time is the optimal storage time of each sampling sample;

c11: and the server sends the received reminding information to the mobile phone terminal.

The invention has the following beneficial effects:

the environmental manual sampling quality control method is based on an environmental manual sampling quality control system, a set of quality control method which is brought into the manual sampling operation specification and the monitoring factor sampling requirement is formulated, the ex-warehouse of a sampling instrument, the use of the sampling instrument and the in-warehouse of the sampling instrument are monitored and recorded, and particularly, the detection and the recording are carried out on a plurality of stages at the beginning of sampling, in the middle process of sampling and at the end of sampling, so that the illegal operation of environmental manual sampling personnel is prevented, the factors such as sampling time and place are controlled, and the errors caused by manual intervention are reduced.

Drawings

FIG. 1 is a schematic diagram showing the connection relationship among a pressure sensor, a timing module, a microprocessor and a power supply device in embodiment 2;

fig. 2 is a flowchart for embodying the manual sampling quality control method of the mobile network-based environment in embodiment 3.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Example 1: a manual environment sampling quality control system based on a mobile network comprises a server, a mobile phone terminal and at least one sampling instrument, wherein a small program is installed on the mobile phone terminal, and the server deploys manual environment sampling finger monitoring software;

the mobile phone terminal is connected with the server through a wireless communication network to realize bidirectional data transmission;

each sampling instrument corresponds to a unique two-dimensional code, the mobile phone terminal collects the two-dimensional code of the sampling instrument through a wireless communication network so as to send real-time data information of the sampling instrument to the server through a small program, and the real-time data information at least comprises sampling time and sampling place information;

the server sends timing reminding information to the small program of the mobile phone terminal according to the real-time data information of the sampling instrument;

the server forms a visual sampling log according to the data information of the sampling instrument, wherein the visual sampling log comprises the information of the sampling instrument, the information of sampling personnel, the sampling place, the information of sampling time, the information of a sampling middle process and the information of a sample.

The invention utilizes the mobile phone terminal to acquire information of environment manual sampling position, sampling duration period, monitoring factors, sampling instruments and the like, and monitors and records the sampling process. The method is characterized in that a small program is installed on a mobile phone terminal, information such as a sampling position, a sampling time period, a monitoring factor and a sampling instrument is uploaded to software installed on a PC (personal computer) terminal through functions such as shooting, coordinate positioning and time recording of the mobile phone terminal, and a quality management and control department can supervise and assess whether environment sampling personnel perform environment sampling according to an environment monitoring scheme and technical specifications through monitoring software.

Preferably, the two-dimensional code is fixed on each sampling instrument, and the two-dimensional code corresponding to each sampling instrument is generated by the instrument name, model and serial number corresponding to each sampling instrument.

Preferably, the information transmitted by the applet to the server includes at least sampling time and sampling place information, character information, and image information.

Example 2: the manual environment sampling quality control system based on the mobile network is different from the manual environment sampling quality control system based on the mobile network in that the manual environment sampling quality control system based on the mobile network also comprises a sample control device as shown in figure 1, wherein the sample control device comprises a sample container, a sample box, a pressure sensor, a timing module, a microprocessor and a power supply device, and the pressure sensor, the timing module, the microprocessor and the power supply device are arranged in the sample box;

the sample container is arranged in the sample box, a plurality of fixing grooves for assisting the sample container to be fixed are formed in the sample box, and the pressure sensor is arranged at the bottom of each fixing groove and used for collecting the pressure of the sample container;

the power supply device is connected with the microprocessor, the microprocessor is respectively connected with the pressure sensor and the timing module, and the microprocessor is connected with the server through a wireless communication network.

The sample control device adopts the following control method:

a1: putting a sampling sample into a sampling sample container, and putting the sampling sample container into a fixing groove of a sample box;

a2: the pressure sensor collects the pressure value of the sample container and transmits the pressure value to the microprocessor, and when the collected pressure value is larger than a preset value, the timing module is started, wherein the preset value is the pressure value collected by the pressure sensor when the sample container is not placed;

a3: the timing module is used for timing the storage time of the sampling samples, and when the storage time acquired by the timing module is greater than or equal to a preset time, the microprocessor sends a reminding message to the server, wherein the preset time is the optimal storage time of each sampling sample; the optimal storage time is substantially less than the specified storage time, so that an operator can timely detect the sampling sample after receiving the prompt, and the sampling sample is prevented from being overdue;

a4: and the server sends the received reminding information to the mobile phone terminal.

The storage of the sampling samples is also very important, the storage time of each sampling sample is different, the sampling samples need to be detected within the specified storage time, if the sampling samples are not detected in time, the sampling samples can possibly fail, therefore, the sample control device acquires the pressure value of the sample container through the pressure sensor, when the pressure value is greater than the preset value, the sampling samples are placed in the sample container and are placed in the sample box, the timing module starts to time the storage time of the sampling samples, when the storage time acquired by the timing module is greater than or equal to the preset time, the microprocessor sends reminding information to the server through the wireless communication network, the server sends the reminding information to the mobile phone terminal to remind operators, so that the sampling samples can be detected in time, and the failure caused by overlong storage time of the sampling samples is avoided, meanwhile, the accuracy of the detection result of the sampling sample is ensured.

Example 3: a method for controlling environment manual sampling quality based on mobile network, as shown in fig. 2, includes the following steps:

s1: distributing numbers to different sampling task names and placing small programs;

s2: taking the sampling instrument out of the warehouse: opening an applet installed on a mobile phone terminal, logging in an account, inputting a sampling task name, acquiring a sampling number, scanning a two-dimensional code of a sampling instrument by the mobile phone terminal, acquiring the name, the model and the ex-warehouse time information of the instrument, submitting and sending the information to a server;

s3: the sampling instrument used: the method comprises the steps of arriving at a specified sampling place, installing a sampling instrument and a sample container, opening an applet, logging in an account, inputting the name of a collected sample, acquiring the number of the sample, scanning a two-dimensional code of the sampling instrument by a mobile phone terminal, uploading the geographic information of the sampling place and the sampling start time, filling in a sampling person, shooting an uploaded sampling start picture, submitting the picture and sending the picture to a server;

s4: warehousing a sampling instrument: after sampling is finished, returning the sampling instrument, opening the small program and logging in an account, scanning the two-dimensional code of the sampling instrument by the mobile phone terminal, uploading the name, the model and the returning time of the instrument, submitting and sending the name, the model and the returning time of the instrument to a server;

s5: the server forms a visual sampling log through environment manual sampling finger monitoring software, and reflects sampling instrument information, sampling time and sampling place information and sampling personnel information of each stage of warehouse-out and warehouse-in of the sampling instrument.

After S3, S6 is added:

s6: the small program prompts a sampling person, takes a picture of a sampling instrument at an intermediate sampling period, uploads the picture and time, submits the picture and sends the picture to the server, and the environment manual sampling refers to that monitoring software records various information at the intermediate sampling stage.

After S6, S7 is added:

s7: the small program prompts a sampling person to perform sampling technology, photographs of the sampling instrument after sampling is finished are shot, the photographs and time are uploaded and submitted to a server, and manual environment sampling refers to that monitoring software records various information after sampling is finished.

The environmental manual sampling quality control method is based on an environmental manual sampling quality control system, a set of quality control method which is brought into the manual sampling operation specification and the monitoring factor sampling requirement is formulated, the ex-warehouse of a sampling instrument, the use of the sampling instrument and the in-warehouse of the sampling instrument are monitored and recorded, and particularly, the detection and the recording are carried out on a plurality of stages at the beginning of sampling, in the middle process of sampling and at the end of sampling, so that the illegal operation of environmental manual sampling personnel is prevented, the factors such as sampling time and place are controlled, and the errors caused by manual intervention are reduced.

Example 4: a manual environment sampling quality control method based on a mobile network comprises the following steps:

c1: distributing numbers to different sampling task names and placing small programs;

c2: taking the sampling instrument out of the warehouse: opening an applet installed on a mobile phone terminal, logging in an account, inputting a sampling task name, acquiring a sampling number, scanning a two-dimensional code of a sampling instrument by the mobile phone terminal, acquiring the name, the model and the ex-warehouse time information of the instrument, submitting and sending the information to a server;

c3: the sampling instrument used: the method comprises the steps of arriving at a specified sampling place, installing a sampling instrument and a sample container, opening an applet, logging in an account, inputting the name of a collected sample, acquiring the number of the sample, scanning a two-dimensional code of the sampling instrument by a mobile phone terminal, uploading the geographic information of the sampling place and the sampling start time, filling in a sampling person, shooting an uploaded sampling start picture, submitting the picture and sending the picture to a server;

c4: the small program prompts a sampling person, takes a picture of a sampling instrument at an intermediate sampling period, uploads the picture and time, submits the picture and sends the picture to the server, and the environment manual sampling refers to that monitoring software records various information at the intermediate sampling stage.

C5: the small program prompts a sampling person to perform sampling technology, photographs of the sampling instrument after sampling is finished are shot, the photographs and time are uploaded and submitted to a server, and manual environment sampling refers to that monitoring software records various information after sampling is finished.

C6: warehousing a sampling instrument: after sampling is finished, returning the sampling instrument, opening the small program and logging in an account, scanning the two-dimensional code of the sampling instrument by the mobile phone terminal, uploading the name, the model and the returning time of the instrument, submitting and sending the name, the model and the returning time of the instrument to a server;

c7: the server forms a visual sampling log through environment manual sampling finger monitoring software, and reflects sampling instrument information, sampling time and sampling place information and sampling personnel information of each stage of warehouse-out and warehouse-in of the sampling instrument.

C8; storing the sampling samples: putting a sampling sample into a sampling sample container, and putting the sampling sample container into a fixing groove of a sample box;

c9: the pressure sensor collects the pressure value of the sample container and transmits the pressure value to the microprocessor, and when the collected pressure value is larger than a preset value, the timing module is started, wherein the preset value is the pressure value collected by the pressure sensor when the sample container is not placed;

c10: the timing module is used for timing the storage time of the sampling samples, and when the storage time acquired by the timing module is greater than or equal to a preset time, the microprocessor sends a reminding message to the server, wherein the preset time is the optimal storage time of each sampling sample;

c11: and the server sends the received reminding information to the mobile phone terminal.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. A mobile network-based environment manual sampling quality control system is characterized by comprising a server, a mobile phone terminal and at least one sampling instrument, wherein a small program is installed on the mobile phone terminal, and the server deploys environment manual sampling finger monitoring software;

the mobile phone terminal is connected with the server through a wireless communication network to realize bidirectional data transmission;

each sampling instrument corresponds to a unique two-dimensional code, and the mobile phone terminal acquires the two-dimensional code of the sampling instrument through a wireless communication network so as to send real-time data information of the sampling instrument to the server;

the server sends timing reminding information to the mobile phone terminal according to the real-time data information of the sampling instrument;

and the server forms a visual sampling log according to the data information of the sampling instrument.

2. The system for controlling the quality of manual sampling of the environment according to claim 1, wherein the two-dimensional code is fixed on each sampling instrument, and the two-dimensional code corresponding to each sampling instrument is generated by the name, model and number of the instrument corresponding to each sampling instrument.

3. The system of claim 2, wherein the visual sampling log comprises information on sampling instruments, information on sampling personnel, information on sampling places, information on sampling times, information on sampling intermediate processes, and information on samples.

4. A mobile network based manual sampling quality control method for environment according to claim 3, characterized in that the information sent by the applet to the server comprises at least sampling time and sampling place information, text information and image information.

5. The manual environment sampling quality control method based on the mobile network according to claim 1, characterized by further comprising a sample control device, wherein the sample control device comprises a sample container, a sample box, a pressure sensor, a timing module, a microprocessor and a power supply device, and the pressure sensor, the timing module, the microprocessor and the power supply device are arranged in the sample box;

the sample container is arranged in the sample box, a plurality of fixing grooves for assisting the sample container to be fixed are formed in the sample box, and the pressure sensor is arranged at the bottom of each fixing groove and used for collecting the pressure of the sample container;

the power supply device is connected with the microprocessor, the microprocessor is respectively connected with the pressure sensor and the timing module, and the microprocessor is connected with the server through a wireless communication network.

6. The mobile network-based environmental manual sampling quality control method according to claim 5, wherein the sample control means adopts the following control method:

a1: putting a sampling sample into a sampling sample container, and putting the sampling sample container into a fixing groove of a sample box;

a2: the pressure sensor collects the pressure value of the sample container and transmits the pressure value to the microprocessor, and when the collected pressure value is larger than a preset value, the timing module is started, wherein the preset value is the pressure value collected by the pressure sensor when the sample container is not placed;

a3: the timing module is used for timing the storage time of the sampling samples, and when the storage time acquired by the timing module is greater than or equal to a preset time, the microprocessor sends a reminding message to the server, wherein the preset time is the optimal storage time of each sampling sample;

a4: and the server sends the received reminding information to the mobile phone terminal.

7. A manual environment sampling quality control method based on a mobile network is characterized by comprising the following steps:

s1: distributing numbers to different sampling task names and placing small programs;

s2: taking the sampling instrument out of the warehouse: opening an applet installed on a mobile phone terminal, logging in an account, inputting a sampling task name, acquiring a sampling number, scanning a two-dimensional code of a sampling instrument by the mobile phone terminal, acquiring the name, the model and the ex-warehouse time information of the instrument, submitting and sending the information to a server;

s3: the sampling instrument used: the method comprises the steps of arriving at a specified sampling place, installing a sampling instrument and a sample container, opening an applet, logging in an account, inputting the name of a collected sample, acquiring the number of the sample, scanning a two-dimensional code of the sampling instrument by a mobile phone terminal, uploading the geographic information of the sampling place and the sampling start time, filling in a sampling person, shooting an uploaded sampling start picture, submitting the picture and sending the picture to a server;

s4: warehousing a sampling instrument: after sampling is finished, returning the sampling instrument, opening the small program and logging in an account, scanning the two-dimensional code of the sampling instrument by the mobile phone terminal, uploading the name, the model and the returning time of the instrument, submitting and sending the name, the model and the returning time of the instrument to a server;

s5: the server forms a visual sampling log through environment manual sampling finger monitoring software, and reflects sampling instrument information, sampling time and sampling place information and sampling personnel information of each stage of warehouse-out and warehouse-in of the sampling instrument.

8. The method for controlling the quality of manual sampling of the environment based on the mobile network as claimed in claim 6, wherein after S3, S6:

s6: the small program prompts a sampling person, takes a picture of a sampling instrument at an intermediate sampling period, uploads the picture and time, submits the picture and sends the picture to the server, and the environment manual sampling refers to that monitoring software records various information at the intermediate sampling stage.

9. The method for controlling the quality of manual sampling of the environment based on the mobile network as claimed in claim 6, wherein after S6, S7:

s7: the small program prompts a sampling person to perform sampling technology, photographs of the sampling instrument after sampling is finished are shot, the photographs and time are uploaded and submitted to a server, and manual environment sampling refers to that monitoring software records various information after sampling is finished.

10. The mobile network-based environment manual sampling quality control method according to claim 7, characterized by comprising the steps of:

c1: distributing numbers to different sampling task names and placing small programs;

c2: taking the sampling instrument out of the warehouse: opening an applet installed on a mobile phone terminal, logging in an account, inputting a sampling task name, acquiring a sampling number, scanning a two-dimensional code of a sampling instrument by the mobile phone terminal, acquiring the name, the model and the ex-warehouse time information of the instrument, submitting and sending the information to a server;

c3: the sampling instrument used: the method comprises the steps of arriving at a specified sampling place, installing a sampling instrument and a sample container, opening an applet, logging in an account, inputting the name of a collected sample, acquiring the number of the sample, scanning a two-dimensional code of the sampling instrument by a mobile phone terminal, uploading the geographic information of the sampling place and the sampling start time, filling in a sampling person, shooting an uploaded sampling start picture, submitting the picture and sending the picture to a server;

c4: the small program prompts a sampling person, takes a picture of a sampling instrument at an intermediate sampling period, uploads the picture and time, submits the picture and time to a server, and the environment manual sampling refers to monitoring software for recording various information at the intermediate sampling stage;

c5: the small program prompts a sampling person to perform sampling technology, photographs of the sampling instrument after sampling is finished are shot, the photographs and time are uploaded and submitted to a server, and manual environment sampling refers to that monitoring software records various information after sampling is finished;

c6: warehousing a sampling instrument: after sampling is finished, returning the sampling instrument, opening the small program and logging in an account, scanning the two-dimensional code of the sampling instrument by the mobile phone terminal, uploading the name, the model and the returning time of the instrument, submitting and sending the name, the model and the returning time of the instrument to a server;

c7: the server forms a visual sampling log through environment manual sampling finger monitoring software, and reflects sampling instrument information, sampling time and sampling place information and sampling personnel information of each stage of warehouse-out and warehouse-in of a sampling instrument;

c8; storing the sampling samples: putting a sampling sample into a sampling sample container, and putting the sampling sample container into a fixing groove of a sample box;

c9: the pressure sensor collects the pressure value of the sample container and transmits the pressure value to the microprocessor, and when the collected pressure value is larger than a preset value, the timing module is started, wherein the preset value is the pressure value collected by the pressure sensor when the sample container is not placed;

c10: the timing module is used for timing the storage time of the sampling samples, and when the storage time acquired by the timing module is greater than or equal to a preset time, the microprocessor sends a reminding message to the server, wherein the preset time is the optimal storage time of each sampling sample;

c11: and the server sends the received reminding information to the mobile phone terminal.

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