CN115496351A - Data processing method, system and equipment for water meter production implementation process - Google Patents

Abstract

The invention discloses a data processing method, a system and equipment for a water meter production implementation process, and belongs to the technical field of instruments and meters and the technical field of intelligent water meter production and manufacturing. The invention marks different production states on the meter by each production process and inquires the meter file of the meter to be implemented in the field implementation process, thereby realizing real-time monitoring, controlling the meter to produce and implement according to the correct process flow, and improving the product quality; efficiency in the implementation process can also be improved.

Description

Data processing method, system and equipment for water meter production implementation process

Technical Field

The invention relates to the technical field of instruments and meters and the technical field of intelligent water meter production and manufacturing, in particular to a data processing method, a system and equipment for a water meter production implementation process.

Background

The general LoRa meter only needs direct wiring to read data from the meter, and the integrity of the meter function can be judged. The production of the NB-IoT meter is different from that of the LoRa meter, and the NB-IoT meter needs to report meter data to a master station system by depending on a mobile operator platform, and the integrity of the meter function can be judged only by analyzing and judging information such as signal strength, signal to noise ratio and the like. Meanwhile, the NB-IoT intelligent water meter depends on the actual situations of mobile, unicom, telecommunication and other operator platforms, and the actual situations of goods supply and goods exchange exist among different customers, so that the complexity of NB-IoT intelligent water meter file migration is involved. And the subsequent customer needs to monitor and analyze the operation state of the NB-IoT intelligent water meter, so that the NB-IoT intelligent water meter production implementation management method and system based on state management need to be invented, and the problem of pain in the process from production to implementation can be effectively solved.

Disclosure of Invention

In order to solve the problems in the prior art, embodiments of the present invention provide a data processing method, system and device for a water meter production implementation process. The technical scheme is as follows:

in one aspect, a data processing method for a water meter production implementation process is provided, and the method includes:

in the production process:

state marking is carried out on all production processes of the NB-IoT intelligent water meter, and meter files are generated;

each production process marks different production states on the meter, and the production states are used for indicating the production flow of each production process;

in the field implementation process:

inquiring meter files of meters to be implemented through the mobile terminal;

and after the meter file indicates that the life state of the meter to be implemented is correct, transferring the meter file to a client platform.

Optionally, the method further includes:

after the field implementation is completed:

implementing an update to the meter file;

and monitoring the meter according to the meter file.

Optionally, the status marking all production processes of the NB-IoT intelligent water meter, and generating a meter file includes:

establishing the meter to be produced and generating the meter file;

optionally, the table of each production process is labeled with a different production status, where the production status is used to indicate a production flow of each production process, and the method includes:

when the meter enters the current process, inquiring whether the last process is qualified;

and if so, executing the current process, and uploading the production state of the current process after the execution is finished.

Optionally, the querying, by the mobile terminal, the meter file of the meter to be implemented includes:

and inputting any one of the information associated with the two-dimensional code of the meter to be implemented, and inquiring the meter file.

Optionally, migrating the meter archive to the client platform after the meter archive indicates that the life state of the meter to be implemented is correct includes:

and adding a query interface of the meter file to a client platform.

In another aspect, a data processing system for a water meter production implementation process is provided, the system includes a server, a plurality of process devices, and a mobile terminal, wherein:

the server is used for carrying out state marking on all production processes of the NB-IoT intelligent water meter in the production process and generating a meter file;

the process equipment is used for marking the meter with different production states, and the production states are used for indicating the production flow of each production process;

the mobile terminal is used for inquiring meter files of meters to be implemented in the field implementation process;

and after the meter file indicates that the life state of the meter to be implemented is correct, the server is used for transferring the meter file to a client platform.

Optionally, the server is further configured to:

after the field implementation is completed:

implementing an update to the meter file;

and monitoring the meter according to the meter file.

Optionally, the server is specifically configured to:

establishing the meter to be produced and generating a meter file;

marking different production states for the table meter of each production process, wherein the production states are used for indicating the production flow of each production process and comprise the following steps:

when the meter enters the current process, inquiring whether the last process is qualified;

and if so, executing the current process, and uploading the production state of the current process after the execution is finished.

Optionally, the mobile terminal is specifically configured to:

and inputting any one of the information associated with the two-dimensional code of the meter to be implemented, and inquiring the meter file.

Optionally, the server is further configured to:

and adding a query interface of the meter file to a client platform.

In another aspect, there is provided a data processing apparatus for a water meter production implementation process, the data processing apparatus comprising:

the profiling module is used for carrying out state marking on all production processes of the NB-IoT intelligent water meter in the production process and generating a meter file;

the updating module is used for acquiring and updating the production state after the meter is marked with different production states by the process equipment, and the production state is used for indicating the production flow of each production process;

the query response module is used for responding to a query request of the mobile terminal in the field implementation process and returning a meter file of a meter to be implemented to the mobile terminal;

and the migration module is used for migrating the meter file to a client platform after the meter file indicates that the life state of the meter to be implemented is correct.

Optionally, the monitoring module is configured to monitor the operation of the mobile terminal,

the updating module is used for updating the meter file after the field implementation is finished;

the monitoring module is used for monitoring the meter according to the meter file.

In the alternative,

the profiling module is used for:

establishing the meter to be produced and generating the meter file;

the update module is specifically configured to:

when the meter enters the current process, inquiring whether the last process is qualified;

and if so, executing the current process, and uploading the production state of the current process after the execution is finished.

Optionally, the query response module is specifically configured to:

and responding any one of the information associated with the two-dimensional code of the meter to be implemented, which is sent by the mobile terminal, inquiring and returning the meter file to the mobile terminal.

Optionally, the migration module is configured to:

and adding a query interface of the meter file to a client platform.

The technical scheme provided by the embodiment of the invention has the following beneficial effects:

the meter is marked with different production states through each production process, and the meter file of the meter to be implemented is inquired in the field implementation process, so that the real-time monitoring is realized, the meter is controlled to be produced and implemented according to the correct process flow, and the product quality can be improved; efficiency in the implementation process can also be improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flow chart of a data processing method for a water meter production implementation process according to an embodiment of the present invention;

fig. 2 is a flow chart of a data processing method for a water meter production implementation process according to an embodiment of the present invention;

figure 3 is a schematic diagram of a data processing system for a water meter production implementation according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a data processing device for a water meter production implementation process according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, there is provided a data processing method for a water meter production implementation process, the method including:

in the production process:

101. state marking is carried out on all production processes of the NB-IoT intelligent water meter, and meter files are generated; the production state comprises the procedures of surface mounting, assembling, reporting, packaging and the like.

102. Each production process marks different production states on the meter, and the production states are used for indicating the production flow of each production process;

in the field implementation process:

103. inquiring meter files of meters to be implemented through the mobile terminal;

104. and after the meter file indicates that the life state of the meter to be implemented is correct, transferring the meter file to the client platform.

Optionally, the method further comprises:

after the field implementation is completed:

implementing the updating of the meter file;

and monitoring the meter according to the meter file.

Optionally, the status marking is performed on all production processes of the NB-IoT intelligent water meter, and generating the meter file includes:

establishing the meter to be produced and generating the meter file;

optionally, the step of marking the meter with different production states for each production process includes:

201. when the meter enters the current process, inquiring whether the last process is qualified;

202. and if so, executing the current process, and uploading the production state of the current process after the execution is finished.

The production process can be specifically as follows:

establishing the meter to be produced and generating the meter file; the meter file at least comprises the information of the unique identification code IMEI number, the contract number, the region, the dealer and the like of the NB-IoT module, and is stored on the database server.

And after the NB-IoT module is attached to the intelligent water meter, the unique asset code SN of the intelligent water meter and the unique identification code IMEI number of the module are associated and bound, and meanwhile, the file of the NB-IoT intelligent water meter is established on an in-plant test platform. Every time the intelligent water meter passes through a production process, the production system queries the production state of the SN of the current meter and the IMEI number of the module by initiating a request to the database server, and judges whether the current meter is operated in the process. If the meter state sequence is abnormal, the production system carries out abnormal prompt and does not update the meter production state; and if the meter state sequence is correct, normally performing the operation of the current process, and after the operation of the current process is successfully completed, updating and marking the production state of the NB-IoT intelligent water meter as the production state of the current process in real time. Until all production processes are completed.

Optionally, after production is finished, after meter boxing and packaging are finished, warehousing operation needs to be performed according to information such as different contract numbers and regions. Before the warehousing management system WMS is operated, firstly, the state query is carried out on the NB-IoT intelligent water meters of the current batch, and if the meter state shows that the production is not finished, the warehousing is forbidden. And if the state is the finished production, the warehousing operation can be executed, and after the warehousing is finished, the production state of the NB-IoT intelligent water meters of the current batch is marked as the warehousing state. The same applies when the meter is taken out of the warehouse. And after the meter is taken out of the warehouse, marking the production state of the NB-IoT intelligent water meter as an 'out-of-warehouse' state.

The fact that the meter state is not finished means that the meter production state is not an "encapsulated" state or a "maintained" state, that is, the meter has not finished producing all the processes. The meter state is finished production, that is, the meter production state is in a packaging state or a maintenance state, and the next warehousing operation can be executed.

Optionally, querying, by the mobile terminal, a meter file of a meter to be implemented includes:

and inputting any one of the associated information of the two-dimensional code of the meter to be implemented, and inquiring the meter file.

Optionally, after the meter archive indicates that the life state of the meter to be implemented is correct, migrating the meter archive to the client platform includes:

and adding a query interface of the meter file to a client platform.

The above field implementation stage may specifically be:

when the technical service personnel implement the NB-IoT intelligent water meter, the meter file needs to be transferred to an off-site customer platform from an on-site test platform, and the meter can normally work. Technical service personnel can accurately search the meter file to be migrated by inputting necessary contract number, region and other information through operating the mobile terminal, and one-key and automatic migration is carried out.

It should be noted that the meter that the service technician finds through the mobile terminal must be in the "ex-warehouse" status. Other states cannot perform file migration operations.

All NB-IoT intelligent water meters are monitored in real time and visually analyzed, and production and implementation links can be effectively guided. For the meter with reported abnormal data, data analysis can be carried out through the monitoring platform, the place of the problem is found, if the problem can be maintained, the state of the meter is marked as 'maintenance' in the maintenance time period, and if the problem cannot be maintained and is qualitatively identified as a bad meter, the state of the meter is marked as 'scrapping'. Through the visual monitoring platform, the full life cycle monitoring can be carried out on all meters in each area.

All NB-IoT intelligent water meters are monitored in real time and analyzed in a visual mode, and production and implementation links can be effectively guided. For the meter with reported abnormal data, data analysis can be carried out through the monitoring platform, the place of the problem is found, if the problem can be maintained, the state of the meter is marked as 'maintenance' in the maintenance time period, and if the problem cannot be maintained and is qualitatively identified as a bad meter, the state of the meter is marked as 'scrapping'. Through the visual monitoring platform, the full life cycle monitoring can be carried out on all meters in each area.

The monitoring of the whole life cycle of each meter means that the state of the current stage of each meter, the production time of each process, the data reporting of the real-time meters, the geographical position of installation and the like can be known in real time.

Referring to fig. 3, there is provided a data processing system for a water meter production implementation process, the system including a server, a plurality of process devices, and a mobile terminal, wherein:

the server is used for carrying out state marking on all production processes of the NB-IoT intelligent water meter in the production process and generating a meter file;

the process equipment is used for marking the meter with different production states, and the production states are used for indicating the production flow of each production process;

the mobile terminal is used for inquiring meter files of meters to be implemented in the field implementation process;

and after the meter file indicates that the life state of the meter to be implemented is correct, the server is used for transferring the meter file to the client platform.

Optionally, the server is further configured to:

after the field implementation is completed:

implementing the updating of the meter file;

and monitoring the meter according to the meter file.

Optionally, the server is specifically configured to:

establishing the meter to be produced and generating the meter file;

marking different production states for each production process table meter, wherein the production states are used for indicating the production flow of each production process and comprise the following steps:

when the meter enters the current process, inquiring whether the last process is qualified;

and if so, executing the current process, and uploading the production state of the current process after the execution is finished.

Optionally, the mobile terminal is specifically configured to:

and inputting any one of the associated information of the two-dimensional code of the meter to be implemented, and inquiring the meter file.

Optionally, the server is further configured to:

and adding a query interface of the meter file to a client platform.

Referring to fig. 4, there is provided a data processing apparatus for a water meter production implementation, the data processing apparatus comprising:

the profiling module 41 is used for performing state marking on all production processes of the NB-IoT intelligent water meter in the production process and generating a meter file;

the updating module 42 is configured to obtain and update a production state after the meter is marked with different production states by the process equipment, where the production state is used to indicate a production flow of each production process;

the query response module 43 is configured to respond to a query request of the mobile terminal in a field implementation process, and return a meter file of a meter to be implemented to the mobile terminal;

and the migration module 44 is used for migrating the meter file to the client platform after the meter file indicates that the life state of the meter to be implemented is correct.

Optionally, the data processing device further comprises a monitoring module 45,

the updating module 42 is used for updating the meter file after the field implementation is completed;

the monitoring module 45 is used for monitoring the meter according to the meter file.

Optionally, the profiling module 41 is configured to:

establishing the meter to be produced and generating the meter file;

the update module 42 is specifically configured to:

when the meter enters the current process, inquiring whether the last process is qualified;

and if so, executing the current process, and uploading the production state of the current process after the execution is finished.

Optionally, the query response module 43 is specifically configured to:

and responding any one of the information associated with the two-dimensional code of the meter to be implemented, which is sent by the mobile terminal, inquiring and returning the meter file to the mobile terminal.

Optionally, the migration module 44 is configured to:

and adding a query interface of the meter file to a client platform.

By carrying out state management in the production and implementation processes of the NB-IoT intelligent water meter, before each link is carried out, the state of the meter is required to be inquired from a database server, the meter is strictly controlled to carry out production, implementation and real-time monitoring according to a correct process flow, high-efficiency and standard production can be achieved, and the product quality is improved; the method is convenient and accurate to implement, and the service quality is improved; the monitoring, tracing and analyzing of the whole life cycle can improve the management level and the working efficiency in the production and implementation processes.

All the above optional technical solutions may be combined arbitrarily to form optional embodiments of the present invention, and are not described in detail herein.

It should be noted that: when the data processing system and the data processing device for the water meter production implementation process provided by the embodiment execute the data processing method for the water meter production implementation process, only the division of the functional modules is taken as an example, and in practical application, the function distribution can be completed by different functional modules according to needs, that is, the internal structures of the system and the device are divided into different functional modules, so as to complete all or part of the functions described above. In addition, the embodiments of the data processing method, the data processing system and the data processing device for the water meter production implementation process provided by the embodiments belong to the same concept, and specific implementation processes thereof are described in the method embodiments and are not described herein again.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

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

Claims (10)

1. A status data processing method applied to an NB-IoT intelligent water meter production implementation process is characterized by comprising the following steps:

in the production process:

state marking is carried out on all production processes of the NB-IoT intelligent water meter, and meter files are generated;

each production process marks different production states on the meter, and the production states are used for indicating the production flow of each production process;

in the field implementation process:

inquiring meter files of meters to be implemented through the mobile terminal;

and after the meter file indicates that the life state of the meter to be implemented is correct, transferring the meter file to a client platform.

2. The method of claim 1, further comprising:

after the field implementation is completed:

implementing an update to the meter file;

and monitoring the meter according to the meter file.

3. The method of claim 2,

the state marking of all production processes of the NB-IoT intelligent water meter and the generation of the meter file comprise the following steps:

establishing the meter to be produced and generating the meter file;

the step of marking the meter with different production states for each production process comprises the following steps:

when the meter enters the current process, inquiring whether the last process is qualified;

and if so, executing the current process, and uploading the production state of the current process to the meter file after the execution is finished.

4. The method according to claim 3, wherein the querying, by the mobile terminal, the meter profile of the meter to be implemented comprises:

and inputting any one of the information associated with the two-dimensional code of the meter to be implemented, and inquiring the meter file.

5. The method of claim 4, wherein migrating the meter profile to a client platform after the meter profile indicates the vital state of the meter to be implemented is error-free comprises:

and adding a query interface of the meter file to a client platform.

6. A data processing system for a water meter production implementation process, the system comprising a server, a plurality of process devices and a mobile terminal, wherein:

the server is used for carrying out state marking on all production processes of the NB-IoT intelligent water meter in the production process and generating a meter file;

the process equipment is used for marking the meter with different production states, and the production states are used for indicating the production flow of each production process;

the mobile terminal is used for inquiring meter files of meters to be implemented in the field implementation process;

and after the meter file indicates that the life state of the meter to be implemented is correct, the server is used for migrating the meter file to a client platform.

7. The system of claim 6, wherein the server is further configured to:

after the field implementation is completed:

implementing an update to the meter file;

and monitoring the meter according to the meter file.

8. The system of claim 7, wherein the server is specifically configured to:

establishing the meter to be produced and generating the meter file;

marking different production states for the table meter of each production process, wherein the production states are used for indicating the production flow of each production process and comprise the following steps:

when the meter enters the current working procedure, inquiring whether the last working procedure is qualified;

and if so, executing the current process, and uploading the production state of the current process after the execution is finished.

9. The system of claim 8, wherein the mobile terminal is specifically configured to:

and inputting any one of the information associated with the two-dimensional code of the meter to be implemented, and inquiring the meter file.

10. A data processing apparatus for a water meter production implementation process, the apparatus comprising:

the profiling module is used for carrying out state marking on all production processes of the NB-IoT intelligent water meter in the production process and generating a meter file;

the updating module is used for acquiring and updating the production state after the meter is marked with different production states by the process equipment, and the production state is used for indicating the production flow of each production process;

the query response module is used for responding to a query request of the mobile terminal in the field implementation process and returning a meter file of a meter to be implemented to the mobile terminal;

and the migration module is used for migrating the meter file to a client platform after the meter file indicates that the life state of the meter to be implemented is correct.

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