WO2022068339A1

WO2022068339A1 - Water quality detection method and system

Info

Publication number: WO2022068339A1
Application number: PCT/CN2021/108522
Authority: WO
Inventors: 蒙良庆; 邹雄伟; 李智; 符岳辉; 彭文姣
Original assignee: 力合科技（湖南）股份有限公司
Priority date: 2020-09-30
Filing date: 2021-07-27
Publication date: 2022-04-07
Also published as: CN114331241A

Abstract

A water quality detection method and system, the water quality detection method comprising: receiving a detection request sent by a user terminal (10) and, on the basis of location information carried in the detection request, determining a matching water sample temporary storage library (20) to return to the user terminal (10) (S101); after receiving a water sample to be detected, the water sample temporary storage library (20) notifies a logistics terminal (30) to transfer the water sample to a detection terminal (40) (S103); by means of the detection terminal (40), performing detection on the water sample (S105); and pushing the detection result to the corresponding user terminal (10) (S107). A user can collect water samples and submit detection requests according to requirements; after being sent to the water sample temporary storage library (20), the water samples are transferred by the logistics terminal (30) to the detection terminal (40) for detection, enhancing the convenience of implementing water quality detection, being easy to implement, being capable of meeting the water quality detection needs of ordinary people, and also being suitable for the water quality detection requirements of professional sites.

Description

Water quality testing method and system

technical field

The invention relates to the technical field of water quality detection, in particular to a water quality detection method and system.

Background technique

Water pollution is mainly caused by pollutants produced by human activities, including mine pollution sources, industrial pollution sources, agricultural pollution sources and domestic pollution sources. Water pollution is water that pollutes the environment by reducing or losing the use value of water by harmful chemicals. Acids, alkalis, oxidants, copper, cadmium, mercury, arsenic and other compounds in sewage, as well as organic poisons such as benzene, dichloroethane, and ethylene glycol, will poison aquatic organisms and affect drinking water sources and scenic spots. When the organic matter in the sewage is decomposed by microorganisms, the oxygen in the water is consumed, which affects the life of aquatic organisms. After the dissolved oxygen in the water is exhausted, the organic matter undergoes anaerobic decomposition, producing unpleasant gases such as hydrogen sulfide and mercaptan, which further deteriorate the water quality. The increasingly intensified water pollution has posed a major threat to the survival and safety of human beings, and has become a major obstacle to the sustainable development of human health, economy and society.

At present, the detection of water quality mainly relies on the fixed-point detection of water stations, and manual collection and delivery to the laboratory. The subject requires compound professional personnel to complete, and the requirements for testing personnel are particularly high, and only after passing the relevant assessment can they be certified. In view of the difficulty and high cost of water quality testing, the existing testing measures and means cannot cope with the flexible and sudden changes in the existing water quality environmental testing.

Secondly, with the continuous improvement of human environmental protection awareness, people pay more and more attention to the water quality of the living environment, and also hope to have a more detailed understanding and mastery of the water quality of their daily domestic water. However, the detection of water quality requires It can only be completed by submitting it to a professional laboratory, and it is not easy for the public to achieve water quality testing.

technical problem

In order to solve the existing technical problems, the embodiments of the present invention provide a water quality detection method and system that is easy to implement and does not rely on fixed-point detection of water stations.

technical solutions

A first aspect of the embodiments of the present invention provides a water quality detection method, comprising:

Receive the detection request sent by the user terminal, and according to the location information carried in the detection request, determine that the matching temporary storage of water samples is returned to the user terminal;

After the water sample temporary storage warehouse receives the water sample to be detected, the logistics end is notified to transfer the water sample to be detected to the detection end;

Detecting the water sample to be detected by the detection end;

Push the detection result to the corresponding user terminal.

In a second aspect, a water quality detection method is also provided, including:

The user terminal obtains the detection request, and sends the detection request to the water quality detection platform;

The water quality detection platform receives the detection request sent by the user terminal, and according to the location information carried in the detection request, determines a matching water sample temporary storage bank and returns it to the user terminal; wherein the water sample temporary storage bank is in advance. set at a designated position, the water sample temporary storage warehouses respectively include at least one sample bottle for containing the water samples to be detected;

When the water quality testing platform confirms receipt of the payment completion information from the user terminal, it notifies the logistics terminal to transfer the water sample to be tested to the detection terminal;

Detecting the water sample to be detected by the detection end;

The water quality detection platform pushes the detection result to the corresponding user terminal.

In a third aspect, a water quality detection system is also provided, including a water quality detection platform and a water sample temporary storage bank pre-set at a designated position, wherein the water sample temporary storage bank respectively includes at least one sample bottle for containing the water sample to be detected. ; The water quality detection platform includes a processor and a memory, the memory stores a computer program, and when the computer program is executed by the processor, the steps of the method described in any of the embodiments of the present application are executed.

beneficial effect

In the water quality detection method and system provided by the above embodiments, a user can submit a detection request through a user terminal, and the water quality detection platform receives the detection request sent by the user terminal, and determines a matching water sample temporary storage library according to the location information carried in the detection request Return to the user terminal; after the water sample temporary storage warehouse receives the water sample to be detected, notify the logistics end to transfer the water sample to be detected to the detection end; Carry out detection; push the detection results to the corresponding user terminal, so that users can collect water samples and submit detection requests according to their needs, and after the water samples are sent to the water sample temporary storage warehouse, they are transferred from the logistics end to the detection end for testing. For testing, the source of testing samples no longer depends on the fixed-point testing of water stations and the way of manual collection and delivery to the laboratory. By setting up a temporary storage warehouse for water samples and completing the transfer from the logistics end, it is ensured that the testing samples meet the storage conditions before being sent to the testing end. The standard, water quality testing process and testing results do not depend on personal experience, which not only ensures the professionalism and reliability of testing, but also greatly improves the convenience of testing water quality, is easy to implement, and can meet the needs of ordinary people for water quality testing. Water quality testing needs for professional sites.

Description of drawings

1 is an application scenario diagram of a water quality detection method in an embodiment of the present invention;

2 is a flowchart of a water quality detection method in an embodiment of the present invention;

3 is a flowchart of a water quality detection method in another embodiment of the present invention;

4 is a flowchart of a water quality detection method in another embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a water quality detection platform in an embodiment of the present invention.

Embodiments of the present invention

The technical solutions of the present invention will be further elaborated below with reference to the accompanying drawings and specific embodiments of the description.

Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terms used herein in the description of the present invention are for the purpose of describing specific embodiments only, and are not intended to limit the protection scope of the present invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the following description, reference is made to the expression "some embodiments", which describe a subset of all possible embodiments, but it should be understood that "some embodiments" may be the same subset or a different subset of all possible embodiments , and can be combined with each other without conflict.

Please refer to FIG. 1 , which is a schematic diagram of an optional application scenario of a water quality detection method provided by an embodiment of the present application, including a user terminal 10 , a water sample temporary storage warehouse 20 , a logistics terminal 30 , a detection terminal 50 , and a water quality detection platform 50 . The user terminal 10 may be an electronic device such as a mobile phone, a computer, or a tablet, and a client application program applied to the user terminal for the water quality detection method is installed in the user terminal 10 . The water sample temporary storage 20 is a device including a plurality of sample bottles. The sample bottles are respectively standard bottles for containing the water samples to be tested. The storage environment meets the standard requirements to ensure that the water samples to be tested can effectively maintain the characteristics of the water samples when they are collected before they are sent to the detection end for testing, so as to avoid deviation or distortion of the test results due to water sample problems. The water sample temporary storage 20 can be installed with a client application for the water quality detection method applied to the water sample temporary storage, which is used to interact with the user terminal 10, the water quality detection platform 50, and the logistics terminal 30 to jointly realize the present application The provided water quality testing method, by setting up the water sample temporary storage library 20, can well handle the detection needs of the demander in the uncertain situation and the user is not specific, and pass random testing requests through the distributed water sample temporary storage library. 20 Carry out effective collection and temporary storage, realize the aggregation of scattered requirements, and then realize batch testing, which can effectively solve the contradiction between random testing requests and batch testing, and improve the efficiency of the entire testing system. The logistics terminal 30 may also be an electronic device such as a server, a mobile phone, a computer, a tablet, etc. The logistics terminal 30 has a client application program applied to the logistics terminal installed in the logistics terminal 30 . The detection end 40 is used to detect the delivered water samples to be detected. Optionally, the detection end 40 may complete the automatic grabbing, identification, identification, and detection of the sample bottle after receiving the sample bottle containing the water sample. Automated equipment for inspection and other processes. The water quality detection platform 50 may include one or more physical servers. The water quality detection platform 50 is installed with a server application program applied to the server for the water quality detection method. 30 interact and jointly implement the water quality detection method provided in this application.

It should be noted that the above user terminal 10, water sample temporary storage 20, logistics terminal 30, detection terminal 40 and water quality detection platform 50 are divided from the perspective of functional roles in the implementation process of the water quality detection method, not from the perspective of physical The division by the angle of separation, such as the detection end 40 and the water quality detection platform 50, may also be the same end in some optional embodiments.

Please refer to FIG. 2 , a water quality detection method provided for an embodiment of the application, applied to the water quality detection platform shown in FIG. 1 , includes the following steps:

S101: Receive a detection request sent by a user terminal, and according to the location information carried in the detection request, determine that a matching temporary storage bank of water samples is returned to the user terminal.

A request submission page of the water quality inspection request may be displayed on the application program of the user terminal, and the user may send out the inspection request by touching or clicking a button on the request submission page. Optionally, the application program of the water quality detection method applied to the user terminal may be an independent APP program, or may be loaded into a known application program, such as instant messaging software, payment software and other application programs. In an optional embodiment, the client application of the water quality detection method is loaded in a known payment application, and the function interface of the payment application is provided with a function button for water quality detection, and the user clicks on the water quality detection. After pressing the function button, the terminal device switches to the request submission page of the water quality testing request according to the user's operation.

The location information carried in the testing request may refer to the location information entered by the user on the request submission page of the water quality testing request, or may refer to the location information of the user terminal obtained by the user through the positioning function when the user submits the water quality testing request. The water sample temporary storage is a device pre-set in a set position, and there are a plurality of sample bottles for containing water samples in the water sample temporary storage. The sample bottle is a standard bottle, which can provide fidelity storage conditions for water samples, and can provide temporary storage for water samples and automatic identification of the detection end. The water quality testing platform stores relevant information about the existing temporary storage of water samples. In an optional embodiment, the information corresponding to each water sample temporary storage bank includes: the code of the water sample temporary storage bank, the location of the water sample temporary storage bank, the number of sample bottles contained in the water sample temporary storage bank, and each The label of a vial, the current status of each vial. Wherein, the matching temporary storage for water samples can be determined according to the distance between the temporary storage for water samples and the user, and the situation of idle sample bottles contained in the temporary storage for water samples.

After the user terminal submits the test request, the water quality testing platform determines the matching water sample temporary storage bank and returns it to the user terminal according to the detection request, so that the user can send the water sample to be tested to the sample bottle of the water sample temporary storage bank for temporary storage; After the user goes to take the sample bottle from the water sample temporary storage library for collecting the water sample to be tested, and then returns the sample bottle containing the water sample to the water sample temporary storage library.

S103, after the water sample temporary storage warehouse receives the water sample to be detected, notify the logistics end to transfer the water sample to be detected to the detection end.

After the user terminal submits the test request, the water quality testing platform determines the matching water sample temporary repository and returns it to the user terminal according to the testing request. Temporary storage in the sample bottle sent to the temporary water sample storage warehouse; or take the sample bottle from the temporary water sample storage warehouse and return the sample bottle containing the water sample to the water sample after collecting the water sample to be tested. Sample staging repository. When the user sends the water sample to any one of the sample bottles in the water sample temporary storage, the water sample temporary storage receives the water sample to be tested; or when the user returns the sample bottle containing the water sample to the water sample temporary storage When stored, the water sample temporary storage warehouse receives the water samples to be tested. When the water sample temporary storage warehouse receives the water sample to be detected, the logistics end is notified to transfer the water sample to be detected to the detection end.

The logistics end may refer to a logistics party that has established a cooperative relationship in advance, and notifying the logistics end to transfer the water samples to be tested to the detection end may mean that the water quality testing platform will need to temporarily store the water samples to be tested from the water samples The notification that the warehouse is transferred to the testing end is sent to the management platform of the cooperative logistics party, and the management platform of the cooperative logistics party assigns the distribution task; after the management platform of the logistics end assigns the distribution task, it will send the relevant information of the distribution personnel to the water quality testing platform. , which is convenient for the water quality testing platform to track the transit status of the water samples to be tested. Notifying the logistics end to transfer the water sample to be tested to the detection end, it may also mean that the water quality testing platform sends a notification that the water sample to be tested needs to be transferred from the water sample temporary storage to the detection end to the delivery personnel of the cooperative logistics party On the mobile phone terminal of the mobile phone, the delivery personnel can directly receive the delivery task, and the water quality testing platform can obtain the relevant information of the delivery personnel who receive the delivery task to perform the delivery task, so as to track the transfer status of the water samples to be tested.

By notifying the transfer of the logistics end, on the one hand, it is convenient for the water quality testing platform to track the transfer status of the water samples to be tested, and on the other hand, it is convenient to ensure that the water samples to be tested meet the conditions in the transfer process.

S105, the water sample to be detected is detected by the detection terminal.

The detection terminal is a designated institution that can provide reliable and authoritative detection of water quality. The detection end can set a sample receiving window for receiving the water samples to be tested, and the logistics end transfers the water samples to be tested to the detection end, and then directly delivers them through the sample receiving window to complete the transfer task. The detection end can be an automated device that realizes the water quality detection process. When it is detected that a water sample to be tested is placed in the sample receiving window, it is automatically captured, identified and sent to the subsequent detection process. Optionally, the detection end may be in the form of other known laboratories, workstations, etc. that can perform reliable and authoritative detection of water quality. The detection end can identify the transferred water sample to be tested by recognizing the label of the sample bottle, and track the detection link and test result of the water sample to be tested through the label of the sample bottle, and notify the water quality testing platform in time.

S107, push the detection result to the corresponding user terminal.

After the detection terminal completes the detection of the water sample to be tested, the detection result is sent to the corresponding user terminal through the water quality detection platform or directly. Among them, the user submits a detection request to trigger the detection process, and the detection request can be associated with the label of the sample bottle in the temporary water sample storage warehouse. The water samples to be tested are detected by the detection end, and the detection process and test results can be associated with the labels of the sample bottles in the water sample temporary storage library. According to the association information, users can be tracked in real time. The water sample to be tested corresponding to the sent test request is collected, transported, and tested, and the test result can be returned to the user after the test result is obtained.

In the above-mentioned embodiments of the present application, a user can submit a detection request through a user terminal, and the water quality detection platform receives the detection request sent by the user terminal, and determines a matching water sample temporary storage bank according to the location information carried in the detection request and returns it to the User terminal; after the water sample temporary storage warehouse receives the water sample to be detected, notifies the logistics end to transfer the water sample to be detected to the detection end; detects the water sample to be detected through the detection end; The test results are pushed to the corresponding user terminal. In this way, the user can collect water samples and submit a test request according to their needs, and after the water samples are sent to the water sample temporary storage warehouse, they are transferred from the logistics end to the detection end for detection, and the samples are tested. The source of water no longer depends on the fixed-point detection of water stations and the way of manual collection and delivery to the laboratory, which can easily meet the testing needs of ordinary people for various water sources; Before the test samples are sent to the test terminal, the storage conditions meet the standards. The water quality test process and test results do not depend on personal experience, which not only ensures the professionalism and reliability of the test, but also greatly improves the convenience of water quality testing, making water quality testing easy. It can meet the water quality testing needs of ordinary people, and it is also applicable to the water quality testing needs of professional sites.

In some embodiments, the informing logistics end to transfer the water sample to be detected to the detection end includes:

Send a collection notification to the logistics terminal, where the collection notification carries the location information of the water sample temporary storage warehouse;

Obtain the identity information of the logistics end according to at least one order of the logistics end confirming the collection and use the identity information to transfer the water sample to be tested from the water sample temporary storage warehouse to the detection The logistics status of the terminal is tracked.

Among them, the identity information of the logistics end refers to the relevant information that can uniquely characterize the distribution behavior of the water sample to be tested, such as the user name of the delivery person who confirms the collection, the code identifier of the delivery person who confirms the collection, The order number for the distribution of the water sample to be tested, etc. After the logistics side confirms the collection according to the collection notification, the water quality testing platform obtains the identity information of the logistics side, such as the user name, terminal identification or order information of the delivery person who delivered the water sample to be tested is associated with the water sample to be tested. The logistics status of the water samples to be tested can be tracked in real time, and the historical logistics status of the water samples to be tested can be traced back when needed. The logistics state may include information such as the departure time of the transfer of the water sample to be tested, the transfer route, the nodes for transfer and circulation, the packaging used for the transfer, and the time when the transfer arrives at the detection end. Optionally, when the delivery personnel at the logistics end takes out the sample bottle containing the water sample to be tested from the water sample temporary storage warehouse after receiving the collection notice, they need to perform identity verification first, or need to enter their own identity information first, so as to achieve Obtain the identity information of the logistics end, and associate the identity information of the logistics end with the water sample to be tested. As another optional implementation, the delivery personnel at the logistics end need to report in the application program of the logistics end when taking out the sample bottle containing the water sample to be tested from the water sample temporary storage after receiving the collection notice order information, so as to obtain the identity information of the logistics end, and associate the identity information of the logistics end with the water sample to be tested.

The water quality testing platform obtains the identity information of the logistics end by sending a collection notice to the logistics end, according to the collection instruction of the logistics end to the collection notice, and uses the identity information to analyze the water samples to be tested from the The water sample temporary storage warehouse transfers the logistics state to the detection end for tracking, and associates the logistics end with the water sample to be detected. The application of the logistics terminal can display the collection task page, and the collection notice issued by the water quality testing platform can be published on the collection task page. The logistics terminal can confirm the collection by touching or clicking the collection notification on the collection task page. Optionally, the application program applied to the water quality detection method at the logistics end may be an independent APP program, or may be loaded into a known application program, such as instant messaging software, payment software and other application programs. In an optional embodiment, the logistics end application of the water quality detection method is loaded in a known communication application, and the function interface of the communication application may be provided with a function button for logistics orders, and the user starts the logistics. The function of the order is kept running in the background. When the water quality testing platform or the logistics management platform issues a collection notification, the application on the logistics side can receive a notification through voice, text, etc., so that the delivery personnel can be informed of the collection notification in time. According to your current location, etc., confirm whether to collect or not. It should be noted that the water quality testing platform sends a collection notification to the logistics terminal, and the logistics terminal confirms collection and performs the delivery task according to the collection notification. Under the technical teaching of the embodiments of the present application, the forms that can complete the transportation of the water samples to be tested and the tracking of the logistics status are also included in the protection scope of the present application.

In some embodiments, the solicitation notice further includes solicitation conditions; or,

After sending the collection notification to the logistics terminal, the method further includes: when receiving at least one collection instruction confirming the collection by the logistics terminal, sending collection conditions to the logistics terminal;

The collection conditions include sampling time limit information, delivery destination information, delivery time limit information and storage request information.

The collection conditions may be issued together with the collection notice, or may be sent to the logistics end receiving the collection notice after the logistics end confirms receipt of the collection notice. The collection conditions include sampling time limit information, delivery destination information, delivery time limit information and storage requirement information, etc., to inform the distribution personnel of the matters needing attention in the distribution process of the water samples to be tested, so as to avoid the water samples to be tested during the transfer process. The occurrence of sample distortion failure and so on.

In some embodiments, before the detection of the water sample to be detected by the detection terminal, the method further includes:

Confirm whether the user terminal has completed the payment; and/or, confirm whether the water sample temporary storage warehouse has received payment information corresponding to the water sample to be tested.

Before testing the water samples to be tested at the testing end, the water quality testing platform determines whether the user has completed the payment. Among them, the payment can be completed by setting different nodes, and several optional methods are listed below. First, before submitting the detection request on the user terminal, or after submitting the detection request, the user triggers the switch to the payment page by clicking the payment button, or automatically triggers the switch to the payment page by submitting the detection request to complete the payment; When the sample bottle is taken from the temporary water sample storage warehouse, or when the water sample containing the water sample to be tested is put back into the temporary water sample storage warehouse, the temporary water sample storage warehouse displays the payment code information for the user to scan the code and switch to the payment page to complete the payment. In the embodiment of the present application, before the water sample to be detected is detected by the detection terminal, the water quality detection platform confirms whether the payment is completed by the user terminal; The payment information corresponding to the water sample to be tested is convenient for the user to choose the payment method, and also for the water quality testing platform to realize the management of the water quality testing.

In some embodiments, the water sample temporary storage library includes at least one sample bottle for containing water samples to be detected, the water sample temporary storage library is preset in a designated position, and the water sample temporary storage library is preset according to the detection request Location information, determine the matching water sample temporary storage bank and return it to the user terminal, including:

According to the location information carried in the detection request, the location of the pre-stored water sample temporary storage warehouse, and the use status of the sample bottle in the water sample temporary storage warehouse, it is determined that the distance from the detection request conforms to the setting The water sample storage bank required and containing the free sample bottle is used as the matching water sample storage bank;

The location information of the water sample temporary storage bank is returned to the user terminal.

The water sample temporary storage library is preset in a designated position, and includes at least one sample bottle for containing the water sample to be detected. The setting of the temporary water sample storage is convenient for users to deliver the water samples to be tested, and it is also convenient for the water quality testing platform to centrally manage the water quality testing requests of multiple users. Among them, the sample bottle can provide the storage conditions for the water samples to be tested after collection, such as providing a constant temperature and sealed packaging environment; secondly, the sample bottle can also facilitate the one-to-one correspondence between the water samples to be tested and the user's testing request. The detection request can be tracked and managed throughout the process, and RFID tags can be set on the sample bottles. After receiving the detection request from the user terminal, the water quality detection platform will use the location information carried in the detection request, the location of the pre-stored water sample temporary storage warehouse, and the use status of the sample bottle in the water sample temporary storage warehouse. , determine that the distance from the detection request meets the set requirements and the water sample temporary storage that contains the free sample bottle is returned to the user terminal as a matching water sample temporary storage bank for the user terminal to carry water samples to the water sample temporary storage bank Temporarily store in the water sample bottle for transfer; or take out the sample bottle from the water sample temporary storage warehouse and collect water samples, and then put the sample bottle containing the water sample back into the water sample temporary storage warehouse for transfer.

In the above embodiments of the present application, the user only needs to submit a test request on the user terminal, put the water sample into the water sample temporary storage warehouse, and obtain reliable and authoritative test results of water quality after completing the payment, which saves time and effort and is easy to operate. It is very convenient to meet the needs of ordinary people for domestic water, drinking water and other water sources, as well as industrial parks or enterprise users to test industrial water, domestic water and other water sources.

Please refer to FIG. 3. On the other hand, the embodiment of the present application further provides a water quality detection method, including:

S201, a user terminal acquires a detection request, and sends the detection request to a water quality detection platform.

The user terminal refers to the intelligent terminal used by the user who sends out the water quality testing request. A request submission page of the water quality inspection request may be displayed on the application program of the user terminal, and the user may send out the inspection request by touching or clicking a button on the request submission page. Optionally, the application program of the water quality detection method applied to the user terminal may be an independent APP program, or it may be loaded in a known application program and triggered by a function button, such as loaded in instant messaging software, payment software and other applications. within the program.

S203, the water quality detection platform receives the detection request sent by the user terminal, and according to the location information carried in the detection request, determines that the matching temporary storage of water samples is returned to the user terminal; wherein the temporary storage of water samples The reservoirs are preset at designated positions, and the water sample temporary storage reservoirs respectively include at least one sample bottle for containing the water samples to be detected.

The location information carried in the testing request may refer to the location information entered by the user on the request submission page of the water quality testing request, or may refer to the location information of the user terminal obtained by the user through the positioning function when the user submits the water quality testing request. Optionally, an information input box may be set on the request submission page of the water quality testing request, and the user name, contact information, address and other information of the corresponding user of the testing request may be required to be filled in. The water sample temporary storage is a device pre-set in a set position, and there are a plurality of sample bottles for containing water samples in the water sample temporary storage. The sample bottle is a standard bottle, which can provide fidelity storage conditions for water samples, and can provide temporary storage for water samples and automatic identification of the detection end. The water quality testing platform stores relevant information about the existing temporary storage of water samples.

S205 , when the water quality testing platform confirms receipt of the payment completion information from the user terminal, it notifies the logistics terminal to transfer the water sample to be tested to the detection terminal.

The payment completion information of the user terminal refers to the payment completion information of the corresponding detection request by the user who submitted the detection request. There is usually a one-to-one correspondence between user terminals and users, and the water quality detection platform can directly correspond the operations obtained on the user terminals to users. Notifying the logistics end to transfer the water sample to be tested to the detection end may mean that the water quality detection platform sends a notification that the water sample to be tested needs to be transferred from the water sample temporary storage warehouse to the detection end to the management platform of the cooperative logistics party, The management platform of the cooperative logistics party assigns the distribution task; after the management platform of the logistics side assigns the distribution task, it will send the relevant information of the distribution personnel to the water quality testing platform, which is convenient for the water quality testing platform according to the transfer status of the water samples to be tested. Notifying the logistics end to transfer the water sample to be tested to the detection end, it may also mean that the water quality testing platform sends a notification that the water sample to be tested needs to be transferred from the water sample temporary storage to the detection end to the delivery personnel of the cooperative logistics party On the mobile phone terminal of the mobile phone, the delivery personnel can directly receive the delivery task, and the water quality testing platform can obtain the relevant information of the delivery personnel who receive the delivery task to perform the delivery task, so as to track the transfer status of the water samples to be tested.

S206, the water sample to be detected is detected by the detection terminal.

In some optional manners, the water quality detection platform and the detection end may be on the same side physically, or may be on different sides. The detection end can be an automatic device that realizes the water quality detection process. When it is detected that the water sample to be tested is placed in the sample receiving window, the detection result is obtained by automatically grabbing, identifying and executing the subsequent detection process in sequence. Optionally, the detection end may also be in the form of other known laboratories, workstations, etc. that can perform reliable and authoritative detection of water quality. The detection end can identify the transferred water sample to be tested by recognizing the label of the sample bottle, and track the detection link and test result of the water sample to be tested through the label of the sample bottle, and notify the water quality testing platform in time.

S207, the water quality detection platform pushes the detection result to the corresponding user terminal.

After the detection terminal completes the detection of the water sample to be tested, the detection result is sent to the water quality detection platform and the water quality detection platform sends it to the corresponding user terminal. In this way, users can collect water samples and submit testing requests according to their needs. After the water samples are sent to the water sample temporary storage warehouse, they are transferred from the logistics end to the testing end for testing. The user only submits the testing request and puts the water samples into the water samples. After temporary storage, you can wait for reliable and authoritative test results, which greatly improves the convenience of water quality testing for ordinary people, makes water quality testing easy to implement, can meet the water quality testing needs of ordinary people, and is also suitable for water quality testing at professional sites. need.

In some embodiments, before the water quality testing platform confirms that the payment completion information of the user terminal is received, it includes:

S2041, the user terminal obtains the payment request and switches to the payment page, and sends payment completion information to the water quality testing platform according to the payment operation on the payment page confirming that the payment is completed; and/or,

S2042, the water sample temporary storage library obtains a payment request and displays a payment code, the user terminal switches to a payment page based on the payment code, and checks the water quality according to the payment operation on the payment page when the payment is completed. The platform sends payment completion information.

Before the water quality testing platform issues a receipt notification to the logistics end, the water quality testing platform determines whether the user has completed the payment. Among them, the payment can be completed by setting different nodes, and several optional methods are listed below. First, before submitting the detection request on the user terminal, or after submitting the detection request, the user sends a payment request by clicking the payment button, which triggers the switch to the payment page, or automatically triggers the switch to the payment page by submitting the detection request as the payment request, and the completion is completed. Second, when the user takes the sample bottle from the water sample temporary storage, the water sample temporary storage will be deemed to have obtained the payment request when the water sample temporary storage receives the bottle request, or the water sample to be tested will be returned to the water sample temporary storage. When the water sample temporary storage library obtains the request to put the sample bottle back, it is regarded as a payment request, and the water sample temporary storage library displays the payment code information for the user to scan the code and switch to the payment page to complete the payment. In the embodiment of the present application, before notifying the logistics terminal to collect the collection, the water quality testing platform confirms whether the user terminal has completed the payment; and/or, confirms whether the temporary water sample storage warehouse has received the water sample corresponding to the water sample to be tested. Payment information is convenient for users to choose payment methods, and it is also convenient for the water quality testing platform to realize the management of water quality testing.

When the water quality testing platform confirms that the water sample temporary storage warehouse has received the water sample to be detected, it notifies the logistics end to transfer the water sample to be detected from the water sample temporary storage warehouse to the detection terminal; or,

When the water quality testing platform confirms that the user has obtained the sample bottle from the water sample temporary storage warehouse, and the sample bottle has received the water sample to be tested, it notifies the logistics end to transfer the water sample to be tested from the location of the user terminal. transported to the detection end.

The user can choose to send the water sample to be tested to the water sample temporary storage library, or choose to take the standard bottle from the water sample temporary storage library, collect the water sample, and then put the standard bottle containing the water sample back into the water sample temporary storage library. The temporary storage of water samples can support the operation of pouring water samples into one of the standard bottles, and can also support the operation of users taking the bottle and putting it back into the standard bottle. Optionally, before the user performs an operation, the water sample temporary storage library may require input of user identity information for verification, so as to associate the user's current operation with the user's identity information, that is, associate the user's current operation with the water sample to be detected one by one. The water sample temporary storage warehouse will report the information of receiving the water sample to be tested or the sample bottle, and the sample bottle has received the information of the water sample to be tested to the water quality testing platform for the water quality testing platform to notify the logistics The terminal transfers the water samples to be tested from the water sample temporary storage warehouse to the detection terminal, which facilitates the unified scheduling and tracking management of the water quality testing requirements by the water quality testing platform.

The water quality testing platform sends a receipt notice to the logistics terminal, and the location information of the water sample to be tested is written in the receipt notice;

The water quality detection platform obtains the identity information of the logistics terminal according to at least one of the logistics terminal's confirmation and acquisition instructions, and uses the identity information to store the water samples to be tested from the water sample temporary storage warehouse. The logistics status transferred to the detection end is tracked.

The identity information on the logistics side refers to the distribution information that can uniquely characterize the delivery of the water sample to be tested, such as the user name of the collection instruction confirming the collection, and the mobile phone used by the person who confirms the collection instruction. Terminal identification of the terminal, order information for the distribution of the water sample to be tested, and the like. After the logistics side confirms the collection according to the collection notification, the water quality testing platform obtains the identity information of the logistics side, such as the user name, terminal identification or order information of the delivery person who delivered the water sample to be tested is associated with the water sample to be tested. The logistics status of the water samples to be tested can be tracked in real time, and the historical logistics status of the water samples to be tested can be traced back when needed. The logistics state may include information such as the departure time of the transfer of the water sample to be tested, the transfer route, the nodes for transfer and circulation, the packaging used for the transfer, and the time when the transfer arrives at the detection end. Optionally, when the delivery personnel at the logistics end takes out the sample bottle containing the water sample to be tested from the water sample temporary storage warehouse after receiving the collection notice, they need to perform identity verification first, or need to enter their own identity information first, so as to achieve Obtain the identity information of the logistics end, and associate the identity information of the logistics end with the water sample to be tested. As another optional implementation, the delivery personnel at the logistics end need to report in the application program of the logistics end when taking out the sample bottle containing the water sample to be tested from the water sample temporary storage after receiving the collection notice order information, so as to obtain the identity information of the logistics end, and associate the identity information of the logistics end with the water sample to be tested.

The water quality testing platform obtains the identity information of the logistics end by sending a collection notice to the logistics end, according to the collection instruction of the logistics end to the collection notice, and uses the identity information to analyze the water samples to be tested from the The water sample temporary storage warehouse transfers the logistics state to the detection end for tracking, and associates the logistics end with the water sample to be detected. The application of the logistics terminal can display the collection task page, and the collection notice issued by the water quality testing platform can be published on the collection task page. The logistics terminal can confirm the collection by touching or clicking the collection notification on the collection task page. Optionally, the application program applied to the water quality detection method at the logistics end may be an independent APP program, or may be loaded into a known application program, such as instant messaging software, payment software and other application programs. In an optional embodiment, the logistics end application of the water quality detection method is loaded in a known communication application, and the function interface of the communication application may be provided with a function button for logistics orders, and the user starts the logistics. The function of the order is kept running in the background. When the water quality testing platform or the logistics management platform issues a collection notification, the application on the logistics side can receive a notification through voice, text, etc., so that the delivery personnel can be informed of the collection notification in time. According to your current location, etc., confirm whether to collect or not.

Please refer to FIG. 4. In order to have a further overall understanding of the water quality detection method provided by this application, an optional specific example is taken as an example to describe the implementation process of the water quality detection method, including:

S11, after the user collects the water sample, submit a detection request through the user terminal;

S12, the water quality testing platform receives the testing request submitted by the user terminal, and recommends a matching water sample temporary storage to the user terminal; the water sample temporary storage is preset in each designated location, including the ability to hold water samples and keep the water samples in the process of transportation Medium samples will not distort failed sample vials.

S13, the user sends the water sample to the water sample temporary storage library; for example, the user brings the water sample to the water sample temporary storage library and stores it in a sample bottle of the water sample temporary storage library, and establishes an association between the user and the sample bottle, or The user takes out the sample bottle from the temporary water sample storage warehouse, contains the water sample, and then puts it back into the temporary water sample storage warehouse. The sample vial is provided with a label, and at this time, an association is established between the user and the sample vial.

S14, the user pays the detection fee; for example, the user pays for the detection request on the user terminal, or the user pays by scanning the payment code provided by the water sample temporary storage when sending the water sample to the temporary water sample storage.

S15, the water sample temporary storage warehouse uses sample bottles to hold water samples and temporarily store them;

S16, the water quality testing platform notifies the logistics end to collect the water samples to be tested in the temporary water sample storage; the water quality testing platform can send the instruction of the sampling completed by the user terminal, or receive the water samples to be tested according to the temporary water sample storage. status, notify the cooperative logistics party to collect the water samples in the temporary storage warehouse. The notification may be issuing a collection notification to the logistics terminal, and the receiving logistics terminal confirms the collection instruction for collection after receiving the collection notification to complete the distribution of the distribution task.

S17, after the logistics end takes samples from the water sample temporary storage warehouse, the water sample to be tested is sent to the detection end;

S18, the detection end can identify the label on the sample bottle, and after completing the detection of the water sample to be detected in the sample bottle, push the detection result to the corresponding user terminal.

In this embodiment of the present application, a user can submit a testing request for water quality testing through a user terminal, and under the unified management of the water quality testing platform, the water quality testing can be completed and reliable and authoritative testing results can be obtained, which greatly facilitates satisfying the needs of different users. The need for water quality testing.

Please refer to FIG. 5 in another aspect of the embodiment of the present application, there is also provided a water quality detection system, including a water quality detection platform and a water sample temporary storage bank pre-set at a designated position, the water sample temporary storage banks respectively include At least one sample bottle of the water sample to be tested; the water quality testing platform includes a processor 51 and a memory 52, the memory 52 stores a computer program, and when the computer program is executed by the processor 51, the embodiments of the present application are executed The steps of any one of the water quality testing methods.

The water quality detection method and system provided by the embodiments of the present application have at least the following characteristics:

First, the implementation of water quality testing can be open to the public, and ordinary people can easily submit water quality testing requirements. The source of testing samples no longer depends on the fixed-point testing at the water station and the method of manual collection and delivery to the laboratory, the water quality testing process and testing. The results do not depend on personal experience, which can not only ensure the professionalism and reliability of testing, but also greatly improve the convenience of testing water quality. ;

Second, through the setting of water sample temporary storage, it is not only convenient for users to send out water samples to be tested, but also can provide standard storage conditions for water samples to be tested, so as to avoid sample distortion and failure to affect the test results;

Third, through the setting of the logistics end, it is convenient to transfer the water samples to be tested from the user to the testing end, to ensure qualified transfer conditions, and to realize the traceability of the transfer process of the water samples to be tested.

Fourth, the entire testing process can be completed automatically. From the formation and transfer of the water samples to be tested to the completion of testing and the sending of testing results, tracking management within the entire testing cycle can be achieved. Quality control can be achieved throughout the testing process to ensure testing results. accuracy and traceability;

Fifth, reduce the cost and threshold of water quality testing, reduce the high professional requirements for staff, and solve the urgent problems that need to be solved in the current water environment industry.

Those of ordinary skill in the art can understand that all or part of the processes in the methods of the above embodiments can be implemented by instructing relevant hardware through a computer program, and the program can be stored in a non-volatile computer readable In the storage medium, when the program is executed, it may include the processes of the foregoing method embodiments. Wherein, any reference to memory, storage, database or other medium used in various embodiments of the present application may include non-volatile and/or volatile memory. Nonvolatile memory may include read only memory (ROM), programmable ROM (PROM), electrically programmable ROM (EPROM), electrically erasable programmable ROM (EEPROM), or flash memory. Volatile memory may include random access memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in various forms such as static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double data rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous chain Road (Synchlink) DRAM (SLDRAM), memory bus (Rambus) direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), etc.

The above are only specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto. Any person skilled in the art can easily think of changes or substitutions within the technical scope disclosed by the present invention. should be included within the protection scope of the present invention. The protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

A method for detecting water quality, comprising:

Receive the detection request sent by the user terminal, and according to the location information carried in the detection request, determine that the matching temporary storage of water samples is returned to the user terminal;

After the water sample temporary storage warehouse receives the water sample to be detected, the logistics end is notified to transfer the water sample to be detected to the detection end;

Detecting the water sample to be detected by the detection end;

Push the detection result to the corresponding user terminal.
The water quality detection method according to claim 1, wherein the notifying the logistics terminal to transfer the water sample to be detected to the detection terminal comprises:

Send a collection notification to the logistics terminal, where the collection notification carries the location information of the water sample temporary storage warehouse;

Obtain the identity information of the logistics end according to at least one order of the logistics end confirming the collection and use the identity information to transfer the water sample to be tested from the water sample temporary storage warehouse to the detection The logistics status of the terminal is tracked.
The water quality testing method according to claim 2, wherein the collection notification also includes collection conditions; or,

After sending the collection notification to the logistics terminal, the method further includes: when receiving at least one collection instruction confirming the collection by the logistics terminal, sending collection conditions to the logistics terminal;

The collection conditions include sampling time limit information, delivery destination information, delivery time limit information and storage request information.
The water quality detection method according to claim 1, wherein before the detection of the water sample to be detected by the detection terminal, the method further comprises:

Confirm whether the user terminal has completed the payment; and/or, confirm whether the water sample temporary storage warehouse has received payment information corresponding to the water sample to be tested.
The water quality detection method according to claim 1, wherein the water sample temporary storage warehouse comprises at least one sample bottle for containing the water samples to be detected, and the water sample temporary storage warehouse is preset in a designated position, so Described according to the location information carried in the detection request, determine that the matching water sample temporary storage bank is returned to the user terminal, including:

According to the location information carried in the detection request, the location of the pre-stored water sample temporary storage warehouse, and the use status of the sample bottle in the water sample temporary storage warehouse, it is determined that the distance from the detection request conforms to the setting The water sample storage bank required and containing the free sample bottle is used as the matching water sample storage bank;

The location information of the water sample temporary storage bank is returned to the user terminal.
A method for detecting water quality, comprising:

The user terminal obtains the detection request, and sends the detection request to the water quality detection platform;

The water quality detection platform receives the detection request sent by the user terminal, and according to the location information carried in the detection request, determines a matching water sample temporary storage bank and returns it to the user terminal; wherein the water sample temporary storage bank is in advance. set at a designated position, the water sample temporary storage warehouses respectively include at least one sample bottle for containing the water samples to be detected;

When the water quality testing platform confirms receipt of the payment completion information from the user terminal, it notifies the logistics terminal to transfer the water sample to be tested to the detection terminal;

Detecting the water sample to be detected through the detection end;

The water quality detection platform pushes the detection result to the corresponding user terminal.
The water quality detection method according to claim 6, wherein before the water quality detection platform confirms that the payment completion information of the user terminal is received, the method comprises:

The user terminal acquires the payment request and switches to the payment page, and sends payment completion information to the water quality testing platform according to the payment operation on the payment page confirming that the payment is completed; and/or,

The water sample temporary storage library obtains the payment request and displays the payment code, the user terminal switches to the payment page based on the payment code, and sends the payment to the water quality testing platform according to the payment operation on the payment page when the payment is confirmed to be completed. Payment completion information.
The water quality detection method according to claim 6, wherein the notifying the logistics terminal to transfer the water sample to be detected to the detection terminal comprises:

When the water quality testing platform confirms that the water sample temporary storage warehouse has received the water sample to be detected, it notifies the logistics terminal to transfer the water sample to be detected from the water sample temporary storage warehouse to the detection terminal; or,

When the water quality testing platform confirms that the user has obtained the sample bottle from the water sample temporary storage warehouse and the sample bottle has received the water sample to be tested, it notifies the logistics end to transfer the water sample to be tested from the location of the user terminal. transported to the detection end.
The water quality detection method according to claim 8, wherein the notifying the logistics terminal to transfer the water sample to be detected to the detection terminal comprises:

The water quality testing platform sends a receipt notice to the logistics terminal, and the location information of the water sample to be tested is written in the receipt notice;

The water quality testing platform obtains the identity information of the logistics end according to at least one order of the logistics end confirming the collection, and uses the identity information for the water sample to be tested from the water sample temporary storage warehouse. The logistics status transferred to the detection end is tracked.
A water quality detection system, comprising a water quality detection platform and a water sample temporary storage bank preset at a designated position, the water sample temporary storage bank respectively includes at least one sample bottle for containing water samples to be detected;

The water quality detection platform includes a processor and a memory, the memory stores a computer program, and when the computer program is executed by the processor, the steps of the method according to any one of claims 1 to 5 are performed.