CN114331242A - Water quality detection method and system - Google Patents

Abstract

The embodiment of the invention discloses a water quality detection method and a system, wherein the water quality detection method comprises the steps of receiving a detection request sent by a user terminal; informing a logistics end to collect a water sample to be detected according to the position information carried in the detection request, or returning optional logistics end information to the user terminal according to the position information carried in the detection request, and collecting the water sample to be detected through the logistics end and transferring the water sample to the detection end; detecting the water sample to be detected through the detection end; and pushing the detection result to the corresponding user terminal. The user can gather the water sample according to the demand, submits the testing request, and after water quality testing platform obtained the testing request, select thing flow end overhead to hold to collect or by the user according to the recommendation of water quality testing platform select the thing flow end overhead to hold to collect the back and transport to the test end, ensure that the testing sample is sent to the test end before the save condition meet the standard, and traceable backtracking, promoted the convenience that detects quality of water greatly.

Description

Water quality detection 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

The water pollution is mainly caused by pollutants generated by human activities and comprises four major parts, namely mine pollution sources, industrial pollution sources, agricultural pollution sources and living pollution sources. Water pollution is water that causes a reduction or loss in the use value of water due to harmful chemicals, and pollutes the environment. Acid, alkali and oxidant in the sewage, compounds such as copper, cadmium, mercury, arsenic and the like, and organic poisons such as benzene, dichloroethane, ethylene glycol and the like can kill aquatic organisms, and influence drinking water sources and scenic spots. When the organic matters in the sewage are decomposed by microorganisms, oxygen in the sewage is consumed, so that the life of aquatic organisms is influenced, and after dissolved oxygen in the sewage is exhausted, the organic matters are subjected to anaerobic decomposition to generate unpleasant gases such as hydrogen sulfide and mercaptan, so that the water quality is further deteriorated. The increasing water pollution has made a great threat to human survival safety, and has become a great obstacle to human health, economic and social sustainable development.

At present, the detection of water quality is mainly carried out by means of fixed-point detection of a water station and manual collection and laboratory detection, the whole detection process needs to be subjected to steps of sampling, sample preparation, analysis and comparison, result interpretation and the like, multiple subjects such as chemistry, biology and the like are involved, the detection can be finished by composite professional personnel, the requirements on the detection personnel are particularly high, and the water quality can be certified and put on duty after relevant examination is qualified. In view of the difficulty and high cost of water quality detection, the existing detection measures and means can not cope with the flexible and sudden change of the existing water quality environment detection.

Secondly, with the continuous improvement of the environmental awareness of people, people pay more and more attention to the quality of water in living environment, and also want to know and master the water quality condition of daily domestic water in a more detailed way, however, the detection of water quality needs to be finished by submitting the water quality condition to a professional laboratory, and the realization of water quality detection is difficult for people.

Disclosure of Invention

In order to solve the existing technical problems, the embodiment of the invention provides a water quality detection method and a water quality detection system which are not supported by a water station for fixed-point detection and are easy to realize.

In a first aspect of the embodiments of the present invention, a water quality detection method is provided, including:

receiving a detection request sent by a user terminal;

informing a logistics end to collect a water sample to be detected according to the position information carried in the detection request, or returning optional logistics end information to the user terminal according to the position information carried in the detection request, and collecting the water sample to be detected through the logistics end and transferring the water sample to the detection end;

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

and pushing the detection result to the corresponding user terminal.

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

the water quality detection platform receives a detection request sent by a user terminal;

under the condition that the water sample is determined to be accepted at home, the water quality detection platform informs a logistics end to accept the water sample to be detected according to the position information carried in the detection request, or returns optional logistics end information to the user terminal according to the position information carried in the detection request;

the logistics end receives the water sample to be detected and transfers the water sample to the detection end according to the notice of the water quality detection platform or the sending request of the user terminal;

the detection end detects the water sample to be detected;

and pushing the detection result to the corresponding user terminal.

In a third aspect, a water quality detection system is further provided, which includes a water quality detection platform, where the water quality detection platform includes a processor and a memory, where the memory stores a computer program, and the computer program, when executed by the processor, performs the steps of the method according to any embodiment of the present application.

In the water quality detection method and system provided by the above embodiment, a user may submit a detection request through a user terminal, a water quality detection platform receives the detection request sent by the user terminal, informs a logistics end to collect a water sample to be detected according to position information carried in the detection request, or returns optional logistics end information to the user terminal according to the position information carried in the detection request, collects the water sample to be detected through the logistics end and transfers the water sample to the detection end, detects the water sample to be detected through the detection end, and pushes a detection result to the corresponding user terminal, so that the user can collect the water sample according to needs, submit the detection request, and after the water quality detection platform obtains the detection request, select a logistics end to collect water samples or select a logistics end to collect water samples according to recommendations of the water quality detection platform and transfer the water samples to the detection end, ensure that the detection sample is delivered to the preceding save condition of sense terminal and accords with the standard, and traceable backtracking, ensure to detect the characteristic that can effectively keep the water sample when being gathered before the water sample is delivered to the sense terminal and detects, avoid leading to testing result deviation or distortion because of the water sample problem, make the source of detection sample can no longer rely on the mode of delivering to the laboratory after water station fixed point detects and artifical the collection, water quality testing process and testing result do not rely on personal experience, not only can ensure to detect specialty and reliability, and promoted the convenience that detects quality of water greatly, easily realize, can satisfy ordinary people's water quality testing demand, also be applicable to the water quality testing demand of professional website.

Drawings

FIG. 1 is a diagram illustrating an application scenario of a water quality detection method according to an embodiment of the present invention;

FIG. 2 is a flow chart of a water quality detecting method according to an embodiment of the present invention;

FIG. 3 is a flow chart of a water quality detecting method according to another embodiment of the present invention;

FIG. 4 is a flow chart of a water quality detecting method according to another embodiment of the present invention;

FIG. 5 is a flow chart of a water quality detection method according to an alternative embodiment of the present invention;

FIG. 6 is a flow chart of a water quality detection method according to another alternative embodiment of the present invention;

fig. 7 is a schematic structural diagram of a water quality testing platform in an embodiment of the invention.

Detailed Description

The technical scheme of the invention is further elaborated by combining the drawings and the specific embodiments in the specification.

Unless defined otherwise, 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 terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to limit the 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 describes a subset of all possible embodiments, but it is understood that "some embodiments" may be the same subset or different subsets of all possible embodiments, and may be combined with each other without conflict.

Referring to fig. 1, a schematic diagram of an optional application scenario of the water quality detection method provided in the embodiment of the present application includes a user terminal 10, a logistics end 30, a detection end 40, and a water quality detection platform 50. The user terminal 10 may be an electronic device such as a mobile phone, a computer, a tablet, and the like, and a client application program applied to a user side of the water quality detection method is installed in the user terminal 10. The logistics end 30 can also be an electronic device such as a server, a mobile phone, a computer, a tablet, and the like, and a client application program applied to the logistics end of the water quality detection method is installed in the logistics end 30. The logistics end 30 is a cooperative logistics party of the water quality detection platform 50, the water quality detection platform 50 can provide a standard bottle for containing a water sample for the cooperative logistics party, the logistics end 30 adopts the standard bottle to receive the water sample to be detected, the standard bottle is adopted to receive the water sample to be detected, the storage environment of the water sample to be detected can be ensured to meet the standard requirement, the characteristic that the water sample can be effectively kept when being collected before the water sample to be detected is sent to the detection end 40 for detection is ensured, and the deviation or distortion of the detection result caused by the problem of the water sample is avoided. The detection end 40 is used for detecting a delivered water sample to be detected, and optionally, the detection end 40 may be an automatic device which completes the processes of automatically grabbing, identifying, detecting and the like of the sample bottle after receiving the sample bottle containing the water sample. The water quality detection platform 50 may include one or more physical servers, a server application program applied to a server of the water quality detection method is installed in the water quality detection platform 50, and the water quality detection method provided by the present application is implemented by interacting with the user terminal 10 and the logistics terminal 30.

It should be noted that, the user terminal 10, the logistics end 30, the detection end 40, and the water quality detection platform 50 are divided from the perspective of a functional role in the implementation process of the water quality detection method, and are not divided from the perspective of physical separation, for example, the detection end 40 and the water quality detection platform 50 may be the same end in some optional embodiments.

Referring to fig. 2, a water sample detection method provided in an embodiment of the present application includes the following steps:

s101, receiving a detection request sent by a user terminal.

The application program of the user terminal can display a request submission page of the water quality detection request, and the user can send the detection request by touching or clicking a key on the request submission page. Optionally, the application program of the water quality detection method applied to the user side may be an independent APP program, or may be loaded in a known application program, such as an application program of instant messaging software, payment software, or the like. In an optional embodiment, a client application program of the water quality detection method is loaded in a known payment application program, a function interface of the payment application program is provided with a water quality detection function key, and after a user clicks the water quality detection function key, the terminal device switches to a request submission page of a water quality detection request according to the operation of the user. The user terminal obtains a detection request according to the operation of the user on the request submitting page and sends the detection request to the water quality detection platform.

S103, informing a logistics end to collect the water sample to be detected according to the position information carried in the detection request, or returning optional logistics end information to the user terminal according to the position information carried in the detection request, and transporting the water sample to be detected to a detection end after the logistics end collects the water sample.

The location information carried in the detection request may be location information input by the user in a request submission page of the water quality detection request, or may be location information of the user terminal acquired by the user through a positioning function when the user submits the water quality detection request. The water quality detection platform sends a notice that the water sample to be detected needs to be transported from the user terminal to the detection end to a management platform of the cooperative logistics party, and the management platform of the cooperative logistics party distributes distribution tasks; after the management platform at the logistics end distributes the distribution tasks, the related information of the distribution tasks executed by the distribution personnel is sent to the water quality detection platform, so that the water quality detection platform can track the transfer state of the water sample to be detected. The water quality detection platform informs the logistics end of accepting the water sample to be detected according to the position information of the detection request, or can also inform that the water quality detection platform needs to transport the water sample to be detected from the user terminal to the detection end and sends the notice to a mobile phone terminal of a distribution worker of a cooperative logistics party, so that the distribution worker can directly receive the distribution task, and the water quality detection platform can acquire relevant information of the distribution worker receiving the distribution task executing the distribution task, thereby tracking the transport state of the water sample to be detected.

In other optional embodiments, optional logistics end information is returned to the user terminal according to the position information carried in the detection request, and the water sample to be detected is collected by the logistics end and then transferred to the detection end, which may mean that the water quality detection platform returns the optional logistics end information to the user terminal according to the detection request, after the user terminal selects one of the returned optional logistics end information, a notification that the water sample to be detected needs to be transferred from the user terminal to the detection end is sent to a corresponding management platform of a cooperative logistics party, the management platform of the cooperative logistics party distributes a distribution task, and after the management platform of the logistics end distributes the distribution task, the management platform sends relevant information of the distribution task executed by a distributor to the water quality detection platform, so that the water quality detection platform can track the transfer state of the water sample to be detected. In other optional embodiments, the returning optional stream end information to the user terminal according to the location information carried in the detection request, the water sample to be detected is collected by the logistics end and then transferred to the detection end, or the water quality detection platform returns optional logistics end information to the user terminal according to a detection request, after the user terminal selects one of the logistics end information, informing the corresponding logistics end to take the collection at the home according to the contact information of the logistics end, and reporting logistics order information through the user terminal when the user terminal sends the water sample to be detected out through the logistics end, or when the user terminal sends the water sample to be detected out through the logistics end, the logistics end can report logistics order information, and the water quality detection platform can track the transfer state of the water sample to be detected according to the logistics order information conveniently.

Through the transportation of informing the commodity circulation end, the quality of water testing platform of being convenient for on the one hand is trailed the transport state of treating the detection water sample, and on the other hand is convenient for can in time be delivered to the test end high-efficiently under the condition of the qualification in ensureing to treat the transportation of treating the water sample.

And S105, detecting the water sample to be detected through the detection end.

The detection end is a fixed point mechanism capable of providing reliable and authoritative detection for water quality. The detection end can be provided with a sample receiving window for receiving a water sample to be detected, and the logistics end transfers the water sample to be detected to the detection end and then directly delivers the water sample to be detected through the sample receiving window to finish the transferring task. The detection end can be automatic equipment for realizing a water quality detection process, and when a water sample to be detected is placed in the sample receiving window, the water sample is automatically grabbed, identified and sent to a subsequent detection process. Alternatively, the detection end can be in the form of other known laboratories, workstations, etc. capable of performing reliable and authoritative detection of water quality. The detection end can identify the transferred water sample to be detected by identifying the label of the sample bottle, and can trace the detection link and the detection result of the water sample to be detected by the label of the sample bottle so as to inform the water quality detection platform in time.

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

And after the detection end finishes the detection of the water sample to be detected, the detection result is directly sent to the corresponding user terminal through the water quality detection platform. The user submits a detection request to trigger a detection process, the logistics end transports the water sample to be detected, the logistics information can be associated with the water sample to be detected corresponding to the detection request, the detection end detects the water sample to be detected, the detection process and the detection result can be associated with the water sample to be detected, according to the associated information, all links of collection, transport and detection of the water sample to be detected corresponding to the detection request sent by the user can be tracked in real time, and the detection result can be returned to the user to know after the detection result is obtained. Optionally, the logistics end is a logistics partner of the water quality detection platform, the logistics end can collect the water sample to be detected, a standard sample bottle can be used for containing the water sample to be detected, and the sample bottle can provide a containing and storing condition after the water sample to be detected is collected, for example, a constant-temperature and sealed containing environment is provided; secondly, the sample bottle is convenient for associating the water sample to be detected with the detection request in a one-to-one correspondence manner, the whole-process tracking management is realized on the detection request of each user, and the sample bottle can be provided with an RFID label.

In the water quality detection method and system provided by the above embodiment, a user may submit a detection request through a user terminal, a water quality detection platform receives the detection request sent by the user terminal, informs a logistics end to collect a water sample to be detected according to position information carried in the detection request, or returns optional logistics end information to the user terminal according to the position information carried in the detection request, collects the water sample to be detected through the logistics end and transfers the water sample to the detection end, detects the water sample to be detected through the detection end, and pushes a detection result to the corresponding user terminal, so that the user can collect the water sample according to needs, submit the detection request, and after the water quality detection platform obtains the detection request, select a logistics end to collect water samples or select a logistics end to collect water samples according to recommendations of the water quality detection platform and transfer the water samples to the detection end, ensure that the detection sample is delivered to the preceding save condition of sense terminal and accords with the standard, and traceable backtracking, ensure to detect the characteristic that can effectively keep the water sample when being gathered before the water sample is delivered to the sense terminal and detects, avoid leading to testing result deviation or distortion because of the water sample problem, make the source of detection sample can no longer rely on the mode of delivering to the laboratory after water station fixed point detects and artifical the collection, water quality testing process and testing result do not rely on personal experience, not only can ensure to detect specialty and reliability, and promoted the convenience that detects quality of water greatly, easily realize, can satisfy ordinary people's water quality testing demand, also be applicable to the water quality testing demand of professional website.

In some embodiments, the notifying a stream terminal to pull in a water sample to be detected according to the location information carried in the detection request, or returning optional stream terminal information to the user terminal according to the location information carried in the detection request, and before the water sample to be detected is pulled in by the stream terminal and transported to a detection terminal, further includes:

and determining whether the vehicle is collected at the entrance.

Optionally, when the user submits the detection request on the request submission page on the application program, the user may select an offer option or a self-sample-sending option. If the user selects the home-entry pulling option when sending a detection request, the water quality detection platform informs the logistics end to pull the water sample to be detected according to the position information carried in the detection request after receiving the detection request, or returns the selectable logistics end information to the user terminal according to the position information carried in the detection request, and the water sample to be detected is pulled and pulled by the logistics end and then is transported to the detection end.

In the embodiment of the application, the water quality detection method provides that a user can select different transfer modes to meet different requirements of the user.

In some embodiments, the method further comprises:

and under the condition of determining that the sample is sent by self, determining a matched detection end according to the position information carried in the detection request and returning the matched detection end to the user terminal.

When the user submits the detection request on the page through the request on the application program, the user can select the pull-in option or the self-sample-sending option. And if the user selects a self-sample-sending option when sending a detection request, after receiving the detection request, the water quality detection platform determines a matched detection end according to the position information carried in the detection request and returns the matched detection end to the user terminal so that the user terminal can carry out self-sample sending according to the address of the detection end. The determination of the detection end can be the distance between the root detection end and the detection request and the state determination of the current workload of the detection end. Optionally, the number of the matched detection ends may be multiple, and the water quality detection platform returns the multiple matched detection ends to the user terminal, and respectively displays the distance between the detected end and the current position and the traffic condition for the user to refer to.

In the embodiment of the application, the water quality detection method simultaneously supports the user to send samples by himself, so that different requirements of the user can be met, for example, the user wants to obtain a detection result more quickly, or the position of the detection end is closer to the current position of the user, or the detection cost can be saved.

In some embodiments, after returning the optional stream end information to the user terminal according to the location information carried in the detection request, the method further includes:

and informing the logistics end to collect the water sample to be detected according to the selected instruction of the user terminal to the logistics end.

The selectable logistics end refers to the fact that the water quality detection platform selects a logistics end which can meet the requirement that the water sample to be detected is transferred to the corresponding detection end from the position of the detection request from a cooperative logistics party. The number of the selectable material flow ends can be one or more, and after the water quality detection platform returns the selectable material flow ends to the user terminal, the distance and the path between the selectable material flow ends and the current position can be respectively displayed for the user to select. In another alternative embodiment, while the water quality testing platform returns the optional stream end to the user terminal, it may display the distribution cost and/or the time required to obtain the testing result of the optional stream end, respectively, for the user to select.

In some embodiments, the notifying a logistics terminal of collecting the water sample to be detected according to the location information carried in the detection request includes:

sending a collecting notice to a matched logistics end, wherein the collecting notice carries the position information in the detection request;

and acquiring the identity information of the logistics end according to at least one collection instruction for confirming collection at the logistics end, and using the identity information for tracking the logistics state of the water sample to be detected transferred to the detection end.

The identity information of the logistics end refers to relevant information capable of uniquely representing a distribution behavior of the water sample to be detected, and may be, for example, a user name of a distributor who confirms collection, a code identification of the distributor who confirms collection, an order number for distributing the water sample to be detected, and the like. After the logistics end confirms the collection according to the collection notification, the water quality detection platform acquires identity information of the logistics end, such as a user name, a terminal identification or an order number of a distributor distributing the water sample to be detected and associated with the water sample to be detected, so that the logistics state of the water sample to be detected can be conveniently tracked in real time, and the historical logistics state of the water sample to be detected can be traced when needed. The logistics state can include information such as the transportation departure time, the transportation route, the node of transporting the circulation, the packing of transporting the use, the time of transporting to reach the detection end of waiting to detect the water sample. Optionally, after receiving the collecting notification, the distribution personnel corresponding to the logistics end collects the water sample from the position in the detection request and holds the water sample in the sample bottle, at this time, an order number is correspondingly generated, and the user terminal reports the order number to the water quality detection platform, so that the identity information of the logistics end is acquired, and the identity information of the logistics end is associated with the water sample to be detected. As another optional implementation, after receiving the water sample, the distribution personnel at the logistics end reports the order number to the water quality detection platform in the application program at the logistics end, so that the water quality detection platform obtains the identity information of the logistics end, and associates the identity information of the logistics end with the water sample to be detected.

The water quality detection platform sends a collecting notice to the logistics end, acquires identity information of the logistics end according to a collecting instruction of the collecting notice of the logistics end, uses the identity information to track the logistics state of the water sample to be detected transferred to the detection end from the position in the detection request, and associates the logistics end with the water sample to be detected. The application program of the logistics end can display a collection task page, a collection notice sent by the water quality detection platform can be published on the collection task page, and the logistics end confirms collection by touching or clicking the collection notice 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 in a known application program, such as an application program of instant messaging software, payment software, or the like. In an optional embodiment, a logistics end application program of the water quality detection method is loaded in a known communication application program, a function key of a logistics order can be arranged in a function interface of the communication application program, a user starts a function of the logistics order and keeps running in a background by clicking the function key of the logistics order, and when a water quality detection platform or a logistics management platform issues a collection notice, the application program of the logistics end can remind a distributor of receiving the collection notice in the forms of voice, characters and the like so as to timely obtain the collection notice and confirm whether collection is carried out according to the conditions of the current position of the distributor and the like. It should be noted that the specific implementation manner of the water quality detection platform sending the collecting notification to the logistics end, and the logistics end confirming the collecting and executing the distribution task according to the collecting notification is not limited to the form of the logistics order described in the above embodiments, and other forms capable of completing the transportation of the water sample to be detected and tracking the logistics state under the technical teaching of the embodiments of the present application should also be included in the scope of the present application.

In some embodiments, after returning the optional stream end information to the user terminal according to the location information carried in the detection request, the method further includes:

and receiving logistics identification information reported by a user terminal, and using the logistics identification information to track the logistics state of the water sample to be detected transferred to the detection end.

The logistics identification information refers to relevant information, such as an order number, which can uniquely represent a distribution behavior of transporting the water sample to be detected from the position in the detection request to the detection end. The user can select one of the selectable logistics ends to be sent according to the selectable logistics ends pushed by the water quality detection platform, and after the corresponding logistics end is collected, the order number is reported to the water quality detection platform through the user terminal, so that the water quality detection platform can track the logistics state of the water sample to be detected transferred to the detection end.

The selectable logistics end is a cooperative logistics party with the water quality detection platform, so that the water sample to be detected is guaranteed to meet the storage condition in the process of transferring the water sample to the detection end, and the detection result is prevented from being influenced by sample distortion and invalidation in the water sample transferring process.

In some embodiments, before the detecting the water sample to be detected by the detecting end, the method further includes:

and confirming whether the user terminal completes payment.

Before the detection end detects the water sample to be detected, the water quality detection platform judges whether the user completes payment. Wherein, payment can be completed by setting different nodes, and several optional modes are respectively listed below. Firstly, before a user submits a detection request on a user terminal or after submitting the detection request, a payment key is clicked to trigger switching to a payment page, or the detection request is submitted to automatically trigger switching to the payment page, so that payment is completed; and secondly, when the user transfers the water sample to the logistics end, the logistics end collects the cost corresponding to the order number for transferring the water sample to be detected, and when the water quality detection platform acquires the order number reported by the user terminal or the logistics end, whether the user terminal completes payment can be determined by inquiring the payment information of the order number. Wherein, the order number corresponds to the label of the sample bottle for containing the water sample to be detected one by one. When the user sends out the water sample, the user terminal can be used for scanning and reading the label of the corresponding sample bottle, so that the detection request is associated with the sample bottle. Or when the logistics end collects the water sample, the information forming the distribution order comprises user identity information, the label of the sample bottle, the order number and the identity information of distribution personnel, so that the water sample to be detected in the detection request is associated with the sample bottle.

In the embodiment of the application, through the detection end before the water sample to be detected is detected, the water quality detection platform confirms whether the user terminal completes payment, and the payment can be a link that a user submits a water quality detection request or a link that the water sample to be detected is transferred to a logistics end for transportation, so that the user can select a payment mode conveniently, and the water quality detection platform can manage the water quality detection conveniently.

Referring to fig. 3, in another aspect of the present embodiment, a water quality detecting method is further provided, including:

s201, the water quality detection platform receives a detection request sent by a user terminal.

The application program of the user terminal can display a request submission page of the water quality detection request, and the user can send the detection request by touching or clicking a key on the request submission page. Optionally, the application program applied to the water quality detection method at the user side may be an independent APP program, or may be loaded in a known application program, for example, in an application program such as known instant messaging software or payment software, and appears as a functional module in the known application program. The user terminal obtains a detection request according to the operation of the user on the request submitting page, the detection request is sent to the water quality detection platform, and the water quality detection platform receives the detection request sent by the user terminal.

And S203, under the condition that the water sample is determined to be collected at home, the water quality detection platform informs a logistics end to collect the water sample to be detected according to the position information carried in the detection request, or the water quality detection platform returns optional logistics end information to the user terminal according to the position information carried in the detection request.

The location information carried in the detection request may be location information input by the user in a request submission page of the water quality detection request, or may be location information of the user terminal acquired by the user through a positioning function when the user submits the water quality detection request. The water quality detection platform sends a notice that the water sample to be detected needs to be transported from the user terminal to the detection end to a management platform of the cooperative logistics party, and the management platform of the cooperative logistics party distributes distribution tasks; after the management platform at the logistics end distributes the distribution tasks, the related information of the distribution tasks executed by the distribution personnel is sent to the water quality detection platform, so that the water quality detection platform can track the transfer state of the water sample to be detected. The water quality detection platform informs the logistics end of accepting the water sample to be detected according to the position information of the detection request, or can also inform that the water quality detection platform needs to transport the water sample to be detected from the user terminal to the detection end and sends the notice to a mobile phone terminal of a distribution worker of a cooperative logistics party, so that the distribution worker can directly receive the distribution task, and the water quality detection platform can acquire relevant information of the distribution worker receiving the distribution task executing the distribution task, thereby tracking the transport state of the water sample to be detected.

In other optional embodiments, optional logistics end information is returned to the user terminal according to the position information carried in the detection request, and the water sample to be detected is collected by the logistics end and then transferred to the detection end, which may mean that the water quality detection platform returns the optional logistics end information to the user terminal according to the detection request, after the user terminal selects one of the returned optional logistics end information, a notification that the water sample to be detected needs to be transferred from the user terminal to the detection end is sent to a corresponding management platform of a cooperative logistics party, the management platform of the cooperative logistics party distributes a distribution task, and after the management platform of the logistics end distributes the distribution task, the management platform sends relevant information of the distribution task executed by a distributor to the water quality detection platform, so that the water quality detection platform can track the transfer state of the water sample to be detected. In other optional embodiments, the returning optional stream end information to the user terminal according to the location information carried in the detection request, the water sample to be detected is collected by the logistics end and then transferred to the detection end, or the water quality detection platform returns optional logistics end information to the user terminal according to a detection request, after the user terminal selects one of the logistics end information, informing the corresponding logistics end to take the collection at the home according to the contact information of the logistics end, and reporting logistics order information through the user terminal when the user terminal sends the water sample to be detected out through the logistics end, or when the user terminal sends the water sample to be detected out through the logistics end, the logistics end can report logistics order information, and the water quality detection platform can track the transfer state of the water sample to be detected according to the logistics order information conveniently.

And S205, the logistics end collects the water sample to be detected and transfers the water sample to the detection end according to the notice of the water quality detection platform or the sending request of the user terminal.

And S207, detecting the water sample to be detected by the detection end.

The detection end is a fixed point mechanism capable of providing reliable and authoritative detection for water quality. The detection end can be provided with a sample receiving window for receiving a water sample to be detected, and the logistics end transfers the water sample to be detected to the detection end and then directly delivers the water sample to be detected through the sample receiving window to finish the transferring task. The detection end can be automatic equipment for realizing a water quality detection process, and when a water sample to be detected is placed in the sample receiving window, the water sample is automatically grabbed, identified and sent to a subsequent detection process. Alternatively, the detection end can be in the form of other known laboratories, workstations, etc. capable of performing reliable and authoritative detection of water quality. The detection end can identify the transferred water sample to be detected by identifying the label of the sample bottle, and can trace the detection link and the detection result of the water sample to be detected by the label of the sample bottle so as to inform the water quality detection platform in time.

S209, pushing the detection result to the corresponding user terminal.

And after the detection end finishes the detection of the water sample to be detected, the detection result is directly sent to the corresponding user terminal through the water quality detection platform. The user submits a detection request to trigger a detection process, the logistics end transports the water sample to be detected, the logistics information can be associated with the water sample to be detected corresponding to the detection request, the detection end detects the water sample to be detected, the detection process and the detection result can be associated with the water sample to be detected, according to the associated information, all links of collection, transport and detection of the water sample to be detected corresponding to the detection request sent by the user can be tracked in real time, and the detection result can be returned to the user to know after the detection result is obtained.

In the above embodiment of the application, a user can collect a water sample according to needs, submit a detection request, the water quality detection platform acquires the detection request, and selects a logistics end to collect the water sample at the door or the user selects a logistics end to collect the water sample at the door according to the recommendation of the water quality detection platform and transfers the water sample to the detection end after the water sample is collected at the door, so that the storage condition of the detection sample before the detection sample is sent to the detection end is in accordance with the standard, the traceable backtracking is realized, the characteristic of the water sample when being collected can be effectively maintained before the water sample to be detected is sent to the detection end for detection, the deviation or distortion of the detection result caused by the problem of the water sample is avoided, the source of the detection sample can be independent of the modes of fixed-point detection of a water station and manual collection, the water quality detection process and the detection result can be independent of personal experience, and the detection specialty and reliability can be ensured, and the convenience of detecting the water quality is greatly improved, the method is easy to realize, the water quality detection requirement of the common people can be met, and the method is also suitable for the water quality detection requirement of professional stations.

Referring to fig. 4, in some embodiments, the step S205, when the logistics end receives the notification from the water quality detection platform, of collecting the water sample to be detected to be transported to the detection end, includes:

s2051, the logistics end obtains a collecting notice sent by the water quality detection platform, wherein the collecting notice carries the position information and collecting conditions of the water sample to be detected; the acquisition condition comprises sampling time limit information, delivery destination information, delivery time limit information and storage requirement information;

s2052, at least one logistics end confirms collection according to the collection notice and reports collection state information to the water quality detection platform;

and S2053, the water quality detection platform receives the collecting state information, acquires the identity information of the logistics end and uses the identity information to track the logistics state of the water sample to be detected transferred to the detection end.

The package acquisition condition can be sent out together with the package acquisition notice. The collecting condition comprises sampling time limit information, delivery destination information, delivery time limit information, storage requirement information and the like so as to inform distribution personnel of items needing attention in the distribution process of the water sample to be detected and avoid the occurrence of sample distortion and invalidation and other conditions of the water sample to be detected in the transfer process.

The identity information of the logistics end refers to relevant information capable of uniquely representing the distribution behavior of the water sample to be detected, such as a user name of a distributor for confirming collection, a code identification of the distributor for confirming collection, an order number for distributing the water sample to be detected, and the like. After the logistics end confirms the collection according to the collection notification, the water quality detection platform acquires identity information of the logistics end, such as a user name, a code identification or an order number of a distributor distributing the water sample to be detected and associated with the water sample to be detected, so that the logistics state of the water sample to be detected can be conveniently tracked in real time, and the historical logistics state of the water sample to be detected can be traced when needed. The logistics state of the water sample to be detected can comprise information such as the transfer departure time, the transfer route, the transfer node, the transfer package, the transfer arrival time and the like of the water sample to be detected. Optionally, after receiving the collecting notification, the distribution personnel corresponding to the logistics end collects the water sample from the position in the detection request and then holds the water sample in the sample bottle, at this time, an order number is correspondingly generated, and the user terminal reports the order number to the water quality detection platform, so that the acquisition of the identity information of the logistics end is realized, and the identity information of the logistics end is associated with the water sample to be detected. As another optional implementation, after receiving the water sample, the distribution personnel at the logistics end reports the order number to the water quality detection platform in the application program at the logistics end, so that the water quality detection platform obtains the identity information of the logistics end, and associates the identity information of the logistics end with the water sample to be detected.

In some embodiments, referring to fig. 5, in S205, the receiving, by the logistics end, the water sample to be detected from the water sample to be detected to be transported to the detection end according to the sending request of the user terminal includes:

s2055, the logistics end collects the water sample to be detected according to the sending request of the user terminal;

s2056, reporting collecting state information to the water quality detection platform;

and S2057, the water quality detection platform receives the collecting state information, acquires the identity information of the logistics end and uses the identity information to track the logistics state of the water sample to be detected transferred to the detection end.

Optionally, the user terminal may autonomously select one of the logistics ends to send a sending request to the optional logistics end according to the optional logistics end returned by the water quality detection platform, for example, the user terminal may inform that a sending request of the water sample to be detected needs to be sent according to a corresponding contact manner of the logistics end pushed by the water quality detection platform. And the corresponding logistics end receives the water sample to be detected according to the sending request of the user terminal and reports receiving state information to the water quality detection platform. The collecting status information may include, but is not limited to, user information for sending out the water sample to be detected, an order number, a label of a sample bottle containing the water sample to be detected, collecting time, a user name for confirming collecting personnel, and a code identification for confirming collecting personnel. After the logistics end confirms the collection according to the collection notification, the water quality detection platform obtains the identity information of the water flow end, such as the user name, the terminal identification or the order information of a distributor distributing the water sample to be detected, and the association between the user name, the terminal identification or the order information and the water sample to be detected, so that the logistics state of the water sample to be detected can be tracked in real time, and the historical logistics state of the water sample to be detected can be traced when needed. The logistics state can include information such as the transportation departure time, the transportation route, the node of transporting the circulation, the packing of transporting the use, the time of transporting to reach the detection end of waiting to detect the water sample.

In other embodiments, in step S205, the receiving, by the logistics end, the water sample to be detected to be transported to the detection end according to the sending request of the user terminal includes:

s2058, the logistics end receives the water sample to be detected according to the sending request of the user terminal;

and S2059, the water quality detection platform receives the logistics identification information reported by the user terminal, and the logistics identification information is used for tracking the logistics state of the water sample to be detected transferred to the detection end.

Optionally, the user terminal may autonomously select one of the logistics ends to send a sending request to the optional logistics end according to the optional logistics end returned by the water quality detection platform, for example, the user terminal may inform that a sending request of the water sample to be detected needs to be sent according to a corresponding contact manner of the logistics end pushed by the water quality detection platform. And the corresponding logistics end collects the water sample to be detected according to the sending request of the user terminal and forms collecting state information. The user terminal reports the logistics identification information to the water quality detection platform so that after the water quality detection platform acquires the logistics identification information, if the order information exists, the logistics identification information is associated with the water sample to be detected, the logistics state of the water sample to be detected can be conveniently tracked in real time, and the historical logistics state of the water sample to be detected can be traced when needed.

Referring to fig. 6, in order to further understand the water quality detection method provided by the present application as a whole, an implementation flow of the water quality detection method is described below by taking an optional specific example as an example, and includes:

s11, after collecting the water sample, the user submits a detection request through the user terminal;

s12, judging whether the transfer mode is door collecting, automatic sample sending or bottle warehouse delivering;

in the case of an entrance, executing S13 or S14;

s13, the water quality detection platform issues a collecting notice to the logistics end, and the logistics end is informed to collect water samples at the door;

s131, confirming collection by the logistics end, sampling the position corresponding to the detection request, and filling the position in a standard bottle to generate an order number; and the material flow end is used for containing the water sample to be detected in a standard bottle for transportation and delivery.

S132, the user terminal pays the detection fee;

s14, recommending an optional logistics end to the user terminal by the water quality detection platform, and informing the logistics end of collecting water samples by the user terminal;

s141, the logistics end logs in for collecting according to the sending request of the user terminal to generate an order number; the logistics end contains the water sample to be detected in a standard bottle for transportation and delivery;

s142, the user terminal reports the order number; or S143, the order number is reported by the logistics terminal;

s144, the user terminal pays the detection fee;

in the case of self-sampling, S15 is executed;

s15, the water quality detection platform recommends a detection end to the user terminal;

s151, sending the water sample to be detected to the detection end by the user terminal for payment, and paying detection cost;

in the case of vial bank delivery, performing S16;

s16, the water quality detection platform receives the detection request submitted by the user terminal and recommends a matched water sample temporary storage library to the user terminal; the water sample temporary storage warehouse is arranged in each appointed place in advance and comprises a sample bottle which can contain a water sample and keep the sample not to be distorted and invalid in the conveying process of the water sample.

S161, the user sends the water sample to a water sample temporary storage; for example, the user carries the water sample to the water sample temporary storage and holds the water sample in a sample bottle of the water sample temporary storage, and a relationship is established between the user and the sample bottle, or the user takes out the sample bottle from the water sample temporary storage and puts the water sample back to the water sample temporary storage. The sample bottle is provided with a label, and at this time, an association is established between the user and the sample bottle.

S162, the user pays the detection fee; for example, the user pays the detection request on the user terminal, or pays by scanning a payment code provided by the water sample temporary storage when the user sends the water sample to the water sample temporary storage.

S163, adopting a sample bottle to contain and temporarily store the water sample in the water sample temporary storage;

s164, the water quality detection platform informs the logistics end to the water sample temporary storage to collect the water sample to be detected; the water quality detection platform can inform the cooperative logistics parties to enter the water sample temporary storage warehouse for collecting the water samples through the instruction which is sent by the user terminal and completes sampling or according to the state that the water sample temporary storage warehouse receives the water samples to be detected. The notification may be to issue a collecting notification to the logistics end, and the receiving logistics end confirms the collecting instruction of collecting after receiving the collecting notification to complete the distribution of the distribution task.

S165, after sampling from the water sample temporary storage warehouse, the logistics end sends the water sample to be detected to the detection end;

and S17, the detection end can identify the label on the sample bottle, and after the detection of the water sample to be detected in the sample bottle is completed, the detection result is pushed to the corresponding user terminal.

In the embodiment of the application, a user can submit a detection request of water quality detection through the user terminal, and under the unified management of the water quality detection platform, the detection of water quality can be completed, and a reliable and authoritative detection result can be obtained, so that the requirements of different users on water quality detection can be greatly met.

Referring to fig. 7, in another aspect of the embodiment of the present application, a water quality detecting system is further provided, which includes a water quality detecting platform, where the water quality detecting 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 steps of the water quality detecting method according to any one of the embodiments of the present application are executed.

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

first, water quality testing's implementation can be open towards the public, the ordinary people can conveniently submit the water quality testing demand, the source of detecting the sample no longer relies on the mode of delivering to the laboratory after water station fixed point detects and artifical the gathering, water quality testing process and testing result do not rely on personal experience, not only can ensure to detect specialty and reliability, and promoted the convenience that detects quality of water greatly, easily realize, can satisfy the water quality testing demand of ordinary people, also be applicable to the water quality testing demand of professional website.

And secondly, through the arrangement of the logistics end, the transfer of the water sample to be detected from the user to the detection end and the qualified transfer condition are conveniently ensured, and the traceable transfer process of the water sample to be detected is realized.

Thirdly, the whole detection process can be automatically completed, the tracking management in the whole detection period can be realized from the formation and the transfer of the water sample to be detected to the processes of completing the detection and sending the detection result, the quality control can be realized in the whole detection process, and the accuracy and the traceability of the detection result are ensured.

Fourthly, the cost and threshold of water quality detection are reduced, the professional high requirements on workers are reduced, and the problem that needs to be solved urgently in the water environment industry at present is solved.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when executed. Any reference to memory, storage, database, or other medium used in the embodiments of the present application may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. The scope of the invention is to be determined by the scope of the appended claims.

Claims (10)

1. A water quality detection method is characterized by comprising the following steps:

receiving a detection request sent by a user terminal;

informing a logistics end to collect a water sample to be detected according to the position information carried in the detection request, or returning optional logistics end information to the user terminal according to the position information carried in the detection request, and collecting the water sample to be detected through the logistics end and transferring the water sample to the detection end;

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

and pushing the detection result to the corresponding user terminal.

2. The water quality detecting method according to claim 1, further comprising:

and under the condition of determining that the sample is sent by self, determining a matched detection end according to the position information carried in the detection request and returning the matched detection end to the user terminal.

3. The water quality detection method according to claim 1, wherein after returning optional stream end information to the user terminal according to the position information carried in the detection request, the method further comprises:

and informing the logistics end to collect the water sample to be detected according to the selected instruction of the user terminal to the logistics end.

4. The water quality detection method according to claim 1, wherein the informing the logistics end of collecting the water sample to be detected according to the position information carried in the detection request comprises:

sending a collecting notice to a matched logistics end, wherein the collecting notice carries the position information in the detection request;

and acquiring the identity information of the logistics end according to at least one collection instruction for confirming collection at the logistics end, and using the identity information for tracking the logistics state of the water sample to be detected transferred to the detection end.

5. The water quality detection method according to claim 1, wherein after returning optional stream end information to the user terminal according to the position information carried in the detection request, the method further comprises:

and receiving logistics identification information reported by a user terminal, and using the logistics identification information to track the logistics state of the water sample to be detected transferred to the detection end.

6. The water quality detection method according to any one of claims 1 to 5, wherein before the detection of the water sample to be detected by the detection terminal, the method further comprises:

and confirming whether the user terminal completes payment.

7. A water quality detection method is characterized by comprising the following steps:

the water quality detection platform receives a detection request sent by a user terminal;

under the condition that the water sample is determined to be accepted at home, the water quality detection platform informs a logistics end to accept the water sample to be detected according to the position information carried in the detection request, or returns optional logistics end information to the user terminal according to the position information carried in the detection request;

the logistics end receives the water sample to be detected and transfers the water sample to the detection end according to the notice of the water quality detection platform or the sending request of the user terminal;

the detection end detects the water sample to be detected;

and pushing the detection result to the corresponding user terminal.

8. The water quality testing method of claim 7, wherein the step of the logistics end collecting the water sample to be tested to be transported to the testing end according to the notification of the water quality testing platform comprises the following steps:

a logistics end acquires a collecting notice sent by a water quality detection platform, wherein the collecting notice carries position information and collecting conditions of a water sample to be detected; the acquisition condition comprises sampling time limit information, delivery destination information, delivery time limit information and storage requirement information;

at least one logistics terminal confirms collection according to the collection notice and reports collection state information to the water quality detection platform;

and the water quality detection platform receives the collecting state information, acquires the identity information of the logistics end and uses the identity information to track the logistics state of the water sample to be detected transferred to the detection end.

9. The water quality detecting method according to claim 7, wherein the logistics end receiving the water sample to be detected to be transported to the detecting end according to the sending request of the user terminal comprises:

the logistics end collects the water sample to be detected according to the sending request of the user terminal;

the logistics end reports the collecting state information to the water quality detection platform;

the water quality detection platform receives the collecting state information, acquires the identity information of the logistics end and uses the identity information to track the logistics state of the water sample to be detected transferred to the detection end; or the like, or, alternatively,

the logistics end collects the water sample to be detected according to the sending request of the user terminal;

and the water quality detection platform receives logistics identification information reported by a user terminal, and the logistics identification information is used for tracking the logistics state of the water sample to be detected transferred to the detection end.

10. A water quality testing system comprising a water quality testing platform comprising a processor and a memory, the memory storing a computer program which, when executed by the processor, performs the steps of the method of any one of claims 1 to 6.

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