CN113075608A - Electric energy phenotype type evaluation online detection and data processing method and system - Google Patents

Abstract

The invention discloses an electric energy phenotype type evaluation online detection and data processing method and system. By building the electric energy phenotype type evaluation online detection and data processing system, the automatic processing of tasks such as test project allocation, record report processing, record report merging, type evaluation progress inquiry, project template processing, test process management, test business circulation, information interaction with a flow card of a hospital office system, original record and report management, extraction of test flow records and the like is realized, the manual labor amount of type evaluation work is reduced, the data processing process is more efficient and accurate, and the reliability of the electric energy phenotype type evaluation work is improved.

Description

Electric energy phenotype type evaluation online detection and data processing method and system

Technical Field

The invention relates to the technical field of metering of instruments and meters, in particular to an electric energy phenotype type evaluation online detection and data processing method and system.

Background

At present, an electric energy meter is used as a representative product of middle and high-end products for converting new and old kinetic energy, and the products are continuously innovated. In order to ensure that the metering performance and the reliability of the innovative metering product reach the metering standard, the type evaluation test of the electric energy meter also becomes a key work.

However, in the traditional electric energy phenotype type evaluation work, only the original recorded data of a few test projects are processed in an automatic processing mode, the rest parts are still manually calculated and processed, and the work of compiling reports is completely completed by manual operation, so that the work efficiency is low; meanwhile, in the process of manually processing a large amount of data, human errors and errors are likely to be brought, the accuracy of a data processing result is reduced, and the reliability of the electric energy phenotype type evaluation work is difficult to guarantee.

Therefore, it is an urgent need to solve the problem of the art to provide an efficient and reliable method for online detection and data processing of electric energy phenotype evaluation.

Disclosure of Invention

In view of the above, the invention provides an electric energy phenotype evaluation online detection and data processing method and system, which effectively solve the problems that the existing electric energy phenotype evaluation work is easy to cause errors by manual operation, low in accuracy, difficult to ensure reliability and the like.

In order to achieve the purpose, the invention adopts the following technical scheme:

in one aspect, the invention provides an electric energy phenotype type evaluation online detection and data processing method, which comprises the following steps:

distributing test items: downloading a type evaluation task table, and distributing a plurality of subtasks for the test project according to the tasks recorded in the type evaluation task table;

and (3) recording and reporting: receiving the distributed subtasks, downloading the evaluation task progress list, processing the subtasks, and generating record reports corresponding to the subtasks;

and (3) merging the record reports: judging whether the plurality of subtasks are completely finished, and combining the record reports corresponding to all the subtasks to generate a total report after the plurality of subtasks are completely finished;

and (4) total report auditing: and performing type auditing on the total report, returning the total report which fails in type auditing to the record report processing step, and performing subtask processing and record report merging again until the type auditing of the total report passes.

The method can submit the total report to a hospital and office system after the total report is obtained, the hospital and office system carries out type auditing on the total report, if a problem is found in the type auditing, the method returns to a report compiling link, namely a record report generating step, and a record report processing module in software enters an editable and amendable state.

Further, after the record report processing step and before the record report combining step, the method further includes:

test service circulation: and (4) transferring the subtask to be handed over to the name of the handover person, and continuing to process the subtask by the handover person.

The setting of this link, mainly consider at the practical application in-process, testing personnel need handing over the task on hand sometimes, at this moment will treat that the subtask of handing over circulates to the handing-over people's name behind the authorization of butt joint task, continues to carry out subsequent processing to the subtask by the handing-over people, can guarantee the efficiency of task processing.

Further, the process of distributing the test items specifically includes:

receiving a test project allocation request, and judging whether a client initiating the request has an allocation authority or not;

after confirming that the client initiating the request has the distribution authority, the client initiating the request downloads the evaluation task table and receives the task filled and uploaded by the client initiating the request;

and distributing a plurality of subtasks for the test project according to the received tasks and a pre-established or selected distribution scheme.

Further, the process of processing the record report specifically includes:

receiving a record report processing request, and judging whether a client initiating the request has record report processing authority or not;

after confirming that the client initiating the request has the record report processing authority, the client initiating the request downloads the evaluation task progress list and loads a subtask list;

and processing the subtasks in the subtask list, and generating a record report corresponding to the subtasks according to the data in the selected database, the data processing mode and the project template.

In another aspect, the present invention further provides an electric energy phenotype type evaluation online detection and data processing system, which includes: the system comprises a plurality of clients and at least one cloud server, wherein the clients are respectively in communication connection with the cloud server, and the cloud server is also in communication connection with an institution office system server;

the cloud server is used for realizing the functions of distributing test projects, processing record reports, merging record reports, inquiring type evaluation progress, processing project templates, managing test processes, transferring test services, interacting information with the process cards of the hospital office system, managing original records and reports and extracting test process records for the plurality of clients, and providing information connection and data support.

When the system runs, the system needs to be connected with a hospital office system server and is used for acquiring login information and basic information of a test prototype (part of the information is input when a task is input by a service part and is stored in the hospital office system server), and all the information is stored in the hospital office system server from task allocation, service circulation and data processing of software, so that different clients can access the same information conveniently.

Further, the cloud server includes:

the acquisition module is used for acquiring request information which is initiated by a plurality of clients and is related to the electric energy phenotype type evaluation test;

the project allocation module is used for receiving the test project allocation request, downloading a type evaluation task table through the hospital office system server, and allocating a plurality of subtasks for the test project according to the tasks recorded in the type evaluation task table;

the record report processing module is used for receiving a record report processing request, downloading the evaluation task progress list through the hospital and office system server, processing the subtasks and generating record reports corresponding to the subtasks;

the record report merging module is used for judging whether the plurality of subtasks are completely finished or not, merging the record reports corresponding to all the subtasks after the plurality of subtasks are completely finished, and generating a total report;

the test equipment management module is used for distributing an equipment unique identification code and a test item binding code for each test equipment for the electric energy phenotype evaluation and managing each test equipment;

the test process management module is used for managing and recording the type evaluation test process of each test item;

the database is used for storing the data received and generated by the project distribution module, the record report processing module, the record report merging module, the test equipment management module and the test process management module; and

the interaction module is used for carrying out information interaction with the hospital office system server and uploading the total report to the hospital office system server;

the request information related to the electric energy phenotype type evaluation test comprises test project distribution, record report processing, record report merging, type evaluation progress inquiry, project template processing, test progress management, test service circulation, information interaction with a courtyard office system flow card, original record and report management and test flow record extraction.

The device information and the test item information can be automatically loaded and the corresponding device scheme can be automatically downloaded for testing as long as the device unique identification code and the test item binding code are read when the type evaluation test is started.

Further, when the request information related to the electric energy phenotype type evaluation test includes a test service flow, the cloud server further includes a service flow module, the service flow module is used for flowing the subtask to be handed over to the name of the handover receiver, and the handover receiver continues to process the subtask.

Further, when the request information related to the electric energy phenotype type evaluation test includes a type evaluation progress query, the cloud server further includes a query module, and the query module is configured to receive the type evaluation progress query request, retrieve a type evaluation test progress of a corresponding test item in the test progress management module, and feed back the retrieved type evaluation test progress to the client initiating the request.

According to the invention, managers and electric energy meter manufacturers can inquire the progress of the evaluation test and feed back opinions through respective client terminals through the inquiry module.

Further, when the request information related to the electric energy phenotype type evaluation test comprises project template processing, the cloud server further comprises a project template processing module, and the project template processing module is used for enabling a client initiating a request to generate and upload a project template in a self-defining mode. The project template is mainly used in the subtask processing and record report generating process.

Further, the database is an SQL2015 database. The invention integrates the databases of different types (such as Access, SQL2000, SQL2005 and SQL2008) used by the detection devices of different manufacturers by using the SQL2015 database, thereby realizing the function that an authorized client can Access all dispersed and independent databases.

According to the technical scheme, compared with the prior art, the electric energy phenotype type evaluation online detection and data processing method and system are provided, by building the electric energy phenotype type evaluation online detection and data processing system, automatic processing of tasks such as test project distribution, record report processing, record report merging, type evaluation progress inquiry, project template processing, test process management, test business circulation, information interaction with a courtyard system flow card, original record and report management, extraction of test flow records and the like is achieved, the manual labor amount of type evaluation work is reduced, the data processing process is more efficient and accurate, and accordingly the reliability of electric energy phenotype type evaluation work is improved.

Drawings

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

FIG. 1 is a schematic flow chart illustrating an implementation of an electric energy phenotype type evaluation online detection and data processing method according to the present invention;

FIG. 2 is a schematic flow chart illustrating a test item assignment process according to an embodiment of the present invention;

FIG. 3 is a flow chart illustrating a process of record report handling according to an embodiment of the present invention;

FIG. 4 is a flowchart illustrating a record report merge process according to an embodiment of the present invention;

FIG. 5 is a flow chart illustrating a test traffic flow process according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of an architecture of an electric energy meter type evaluation online detection and data processing system according to the present invention;

fig. 7 is a schematic structural architecture diagram of a cloud server according to an embodiment of the present invention;

FIG. 8 is a functional block diagram of an embodiment of an on-line power meter type evaluation and data processing system according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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.

On one hand, referring to fig. 1, the embodiment of the invention discloses an electric energy phenotype type evaluation online detection and data processing method, which comprises the following steps:

s1: distributing test items: and downloading the evaluation task table, and distributing a plurality of subtasks for the test project according to the tasks recorded in the evaluation task table.

Referring to fig. 2, the process of assigning the test items specifically includes:

receiving a test project allocation request, and judging whether a client (namely a current operator) initiating the request has allocation authority;

after confirming that the client initiating the request has the distribution authority, entering a test project distribution link, linking to a hospital office system, downloading a type evaluation task table by the client initiating the request, and receiving a task filled and uploaded by the client initiating the request;

and judging whether the subtasks are distributed according to the received tasks and a pre-established or selected distribution scheme, if not, distributing a plurality of subtasks for the test project, uploading the subtasks to a cloud service end, loading the distributed subtasks by the cloud service end, judging whether the subtasks are continuously distributed, and if not, finishing the distribution and ending the process.

The type of the allocation scheme in this embodiment is mainly determined according to the following classification conditions, specifically:

the electric energy meters are classified according to functions, and comprise a common electronic type electric energy meter, a time-sharing electric energy meter, a prepayment electric energy meter, a multi-rate electric energy meter, an intelligent electric energy meter, an electromechanical electric energy meter, a rack type instrument and the like.

The electric energy meter is classified according to access modes, including two categories of direct access to the electric energy meter and access to the electric energy meter through a mutual inductor.

The application types are classified according to type evaluation, and the classification comprises several categories, namely application in a single group, application in two groups, application in a series and the like.

The classification is made according to environmental grades, including H1, H2, H3 and other environmental grades required by the electric energy phenotype type evaluation. Wherein: the environmental temperature ranges of H1 and H2 grades are-10 ℃ to +55 ℃, and the environmental temperature range of H3 grades is-25 ℃ to +55 ℃; the ambient humidity and water conditions for the H1 rating were: the instrument does not suffer from condensation, water accumulation or frozen closed places; the ambient humidity and water conditions for the H2 rating were: closed locations where meters may be subject to condensation, water (other than rainfall) and icing; the ambient humidity and water conditions for the H3 rating were: open environment with average climatic conditions.

The above categories can be freely matched with scheme types, such as directly accessed prepaid electric energy, applied according to a single group, and environment level H2. Meanwhile, when the test items are distributed, batch distribution can be carried out according to a self-built scheme.

In this embodiment, the test items assigned by the tester refer to all test items included in a complete electric energy phenotype type evaluation report, and according to the types of the assignment schemes, the test item contents to be assigned to different electric energy meters and different application modes are different, one assignment scheme can be divided into a set of a plurality of sub-items, one sub-item includes a plurality of sub-tasks, and the sign of completion of a scheme test is that all the sub-tasks in the scheme are completed.

If the scheme 'direct access _ prepaid electric energy meter _ single group _ H2', the sub-items can be divided into 5, environment test, EMC test, error test, influence quantity test and durability test.

Each sub-project contains the following sub-tasks:

the environment tests comprise a vibration test, an impact test, a dustproof test, a waterproof test, a spring hammer test, a flame spread test and the like;

the EMC test comprises a radio frequency electromagnetic field radiation test, a radio frequency electromagnetic field induced conducted disturbance test, an electrostatic discharge test, a surge test, a damped oscillation wave test and the like;

the error test comprises a starting test, a creeping test, a repeatability test, a variation requirement test, a load current lifting variation test and the like;

the influence quantity test comprises a voltage change test, a frequency change test, a harmonic test in a voltage and current circuit, an odd harmonic test in a current circuit, an inter-harmonic test in the current circuit and the like;

the durability test includes a durability test, a self-heating test, and the like.

For another example, the scheme 'direct access _ prepaid electric energy meter _ single group _ H6' can be divided into 6 sub-projects, namely, an environment test, an EMC test, an error test, an influence quantity test, a durability test and a solar radiation test.

S2: and (3) recording and reporting: and receiving the distributed subtasks, downloading the evaluation task progress list, processing the subtasks, and generating a record report corresponding to the subtasks.

Referring to fig. 3, the process of record report processing specifically includes:

receiving a record report processing request, and judging whether a client (namely a current operator) initiating the request has a record report processing authority;

after confirming that the client side initiating the request has the record report processing authority, entering a record report processing link, linking to a hospital office system server, downloading a type evaluation task progress list by the client side initiating the request, acquiring the operator authority and a task under the operator name, and loading a subtask list;

processing subtasks in the subtask list, selecting local database data processing or popup data entry and data processing, then judging whether subtask templates exist, namely project templates, if the project templates exist, generating record reports corresponding to the subtasks directly according to the data, the data processing mode and the project templates in the selected database, if the project templates do not exist, uploading the corresponding project templates by the project template processing module, performing subsequent processing, generating the record reports, then uploading the record reports to the cloud service terminal, if a service flow requirement exists, continuing a service flow process, performing service flow, and finishing the whole process after the service flow process is processed by a handover person.

In this embodiment, the type of data processing method is determined by the number of databases integrated by the SQL2015 database and other data processing methods. The structure of each database is different, the data processing mode is different, namely different database data are processed through different data processing modes, and finally the completely same data combination format is obtained. Other data processing modes are determined by the processing mode unique to the project test data, such as calculation or server data acquisition, and finally the same data combination format is obtained.

S4: and (3) merging the record reports: and judging whether the plurality of subtasks are completely finished, and combining the record reports corresponding to all the subtasks to generate a total report after the plurality of subtasks are completely finished.

Referring to fig. 4, after receiving a record report merging request, first determining whether an operator has the authority to merge reports, after determining that the operator has the authority to merge reports, performing a record report merging process, downloading a task evaluation table from a hospital and office system, selecting a task to be processed, loading all subtask records and reports under the selected task through a network server of a cloud server, determining whether all subtasks are processed, if unprocessed subtasks exist, entering a record report processing link to continue processing the subtasks, if all processing is completed, merging record reports, uploading to the cloud server, archiving the record report merging process is completed, and the entire record report merging process is completed.

S5: and (4) total report auditing: and performing type auditing on the total report, returning the total report which fails the type auditing to the record report processing step, and performing subtask processing and record report merging again until the type auditing of the total report passes.

Preferably, after the record report processing step and before the record report merging step, the method further comprises:

s3: test service circulation: and (4) transferring the subtask to be handed over to the name of the handover person, and continuing to process the subtask by the handover person.

Referring to fig. 5, when a service flow is performed, a system administrator authorizes a task tester, determines whether authorization is completed, if authorization is completed, a project administrator allocates a test task and determines whether allocation is completed, after allocation is completed, the authorized tester logs in the system, processes a task to be processed under the name, the system determines whether sub-tasks are processed, if processing is completed, a handover worker can be selected, then the system determines whether all tasks are completed, if all tasks are completed, a handover process is completed, and if there are tasks to be completed, the handover worker needs to log in the system to continue processing the task to be completed.

On the other hand, referring to fig. 6, the embodiment of the present invention further discloses an electric energy phenotype type evaluation online detection and data processing system, which includes: the system comprises a plurality of clients 1 and at least one cloud server 2, wherein the clients 1 are respectively in communication connection with the cloud server 2, and the cloud server 2 is also in communication connection with an institution office system server 3;

the cloud server 2 is used for realizing the functions of distributing test projects, processing record reports, merging record reports, inquiring type evaluation progress, processing project templates, managing test processes, transferring test services, interacting information with the process cards of the hospital office system, managing original records and reports and extracting test process records for the plurality of clients 1, and providing information connection and data support.

The cloud service end 2 can obtain a total report by butting the client ends 1 and the hospital and office management system server 3, the problem found in report type auditing can be returned to a report compiling link after the total report is submitted to the hospital and office system, and at the moment, a record report processing module in the system enters an editable and modifiable state. After the whole task flow is finished, managers and detectors of related tasks can look up related contents such as reports and records.

The system can realize test process management, test service circulation, information interaction with a hospital type evaluation office system flow card, original record and report management, extraction of test flow records stored in the hospital type evaluation office system, synchronous writing according to the requirement of 'model machine flow records in detection' in the 'flow card of the hospital type evaluation management system', and write back to inquire when test time statistics in the 'type evaluation management system' is carried out.

Referring to fig. 7, the cloud server 2 specifically includes:

an obtaining module 201, configured to obtain request information related to an electric energy phenotype evaluation test initiated by a plurality of clients 1;

the project allocation module 202 is used for receiving a test project allocation request, downloading the evaluation task table through the hospital office system server 3, and allocating a plurality of subtasks for the test project according to the tasks recorded in the evaluation task table;

the record report processing module 203 is configured to receive a record report processing request, download the evaluation task progress list through the hospital and office system server, process the subtask, and generate a record report corresponding to the subtask;

a record report merging module 204, configured to determine whether all of the multiple subtasks are completed, and after all of the multiple subtasks are completed, merge record reports corresponding to all the subtasks generated by the record report processing module 203 to generate a total report;

the test equipment management module 205 is configured to allocate an equipment unique identification code and a test item binding code to each test equipment for electric energy phenotype evaluation, and manage each test equipment;

the test process management module 206 is used for managing and recording the type evaluation test process of each test item;

the database 207 is used for storing data received and generated by the project allocation module 202, the record report processing module 203, the record report merging module 204, the test equipment management module 205 and the test process management module 206; and

the interaction module 208 is configured to perform information interaction with the hospital office system server 3, and upload the total report to the hospital office system server 3;

the request information related to the electric energy phenotype type evaluation test comprises test project distribution, record report processing, record report merging, type evaluation progress inquiry, project template processing, test progress management, test business circulation, information interaction with a courtyard office system flow card, original record and report management and test flow record extraction.

Preferably, when the request information related to the electricity energy phenotype type evaluation test includes a test service flow, the cloud server 2 further includes a service flow module 209, and the service flow module 209 is configured to flow the subtask to be handed over to the name of the handover receiver, and the handover receiver continues to process the subtask.

Preferably, when the request information related to the electric energy phenotype type evaluation test includes a type evaluation progress query, the cloud server 2 further includes a query module 210, and the query module 210 is configured to receive the type evaluation progress query request, invoke a type evaluation test progress of a corresponding test item in the test progress management module 206, and feed back the invoked type evaluation test progress to the client 1 that initiated the request.

In this embodiment, management personnel and electric energy meter manufacturers can intelligently inquire the test progress and feed back opinions through a network, and the system can inquire the test progress through the type evaluation by distributing an equipment unique identification code and an experimental item binding code to each test device for electric energy meter type evaluation and scanning the equipment unique identification code or the experimental item binding code.

In the aspect of test equipment management, the remote monitoring and operating platform of the test equipment is developed by using the internet of things technology, the communication signals of the communication interface of the test equipment are coded and then are accessed to a public power grid by using the low-voltage carrier technology, and the coded communication signals are decoded at any output end of the power grid and are accessed to the test equipment on the automatic management platform, so that remote real-time monitoring and operation are realized.

Preferably, when the request information related to the electric energy phenotype type evaluation test includes project template processing, the cloud server 2 further includes a project template processing module 211, and the project template processing module 211 is configured to enable the client 1 initiating the request to custom generate and upload a project template.

Specifically, in the present embodiment, the database 207 adopts an SQL2015 database. In the embodiment, a server-client network is formed by one database server, a plurality of industrial control computers for testing and a plurality of common computers for management. The database server is used for storing original records, sub-reports, integrated total reports (in the embodiment, the total reports are filed in a PDF format and cannot be randomly modified) uploaded by each client, test process management, test service circulation, information interaction with the hospital-type evaluation office system flow card, and configuration data necessary for software operation. The industrial control computer stores the test data of each test item and is used for calling the software in real time according to the requirements. The management computer is used for recording, consulting and integrating reports and managing the configuration of the system.

Referring to fig. 8, a functional architecture diagram of the system is shown, the system can be operated only after a user logs in an account, during login, the user can log in the system through a hospital office system or can log in the system by himself through software, after logging in through the hospital office system, the user can directly obtain login information of the hospital office system without repeated login, and after authorization judgment, the user can directly enter a task processing flow.

The system in the embodiment mainly comprises the functions of business processing, query statistics, project template management, personnel authority management and the like, the business processing function specifically comprises the branch functions of test project allocation, record report processing and record report combination, and the query statistics function mainly aims at type evaluation progress query. The personnel authority management mainly relates to several branch functions such as department lists, personnel lists, authority setting, operation logs, error logs, client configuration, authority group setting and the like.

The system disclosed by the embodiment relates to a plurality of clients, each client can process each subtask simultaneously without mutual interference, software can process the tasks according to the authority, and the authority is divided into administrator authority (all authorities), project distribution authority, report processing authority, report merging authority, electric appliance center authority, report uploading authority, progress inquiry authority, template management authority and the like. Only if the corresponding authority is distributed to the login task, the part of items can be processed, otherwise, no authority is prompted.

Specifically, the plurality of clients 1 may include terminals such as a system administrator client, a project administrator client, a tester client, an equipment administrator client, and an electric energy meter manufacturer client, the system administrator may perform authority management, the project administrator client may perform project allocation, the tester client may perform subtask processing and service flow, the equipment administrator client may perform online management on the test equipment, and the electric energy meter manufacturer client and the project administrator client may perform type evaluation progress query.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An electric energy phenotype type evaluation online detection and data processing method is characterized by comprising the following steps:

distributing test items: downloading a type evaluation task table, and distributing a plurality of subtasks for the test project according to the tasks recorded in the type evaluation task table;

and (3) recording and reporting: receiving the distributed subtasks, downloading the evaluation task progress list, processing the subtasks, and generating record reports corresponding to the subtasks;

and (3) merging the record reports: judging whether the plurality of subtasks are completely finished, and combining the record reports corresponding to all the subtasks to generate a total report after the plurality of subtasks are completely finished;

and (4) total report auditing: and performing type auditing on the total report, returning the total report which fails in type auditing to the record report processing step, and performing subtask processing and record report merging again until the type auditing of the total report passes.

2. The method for online testing and data processing for phenotyping of electric energy as claimed in claim 1, wherein after the step of processing the record report and before the step of combining the record report, further comprising:

test service circulation: and (4) transferring the subtask to be handed over to the name of the handover person, and continuing to process the subtask by the handover person.

3. The method for online detection and data processing for electric energy phenotype type evaluation according to claim 1, wherein the process of assigning the test items specifically comprises:

receiving a test project allocation request, and judging whether a client initiating the request has an allocation authority or not;

after confirming that the client initiating the request has the distribution authority, the client initiating the request downloads the evaluation task table and receives the task filled and uploaded by the client initiating the request;

and distributing a plurality of subtasks for the test project according to the received tasks and a pre-established or selected distribution scheme.

4. The method for online detection and data processing for electric energy phenotype type evaluation according to claim 1, wherein the process of recording report processing specifically comprises:

receiving a record report processing request, and judging whether a client initiating the request has record report processing authority or not;

after confirming that the client initiating the request has the record report processing authority, the client initiating the request downloads the evaluation task progress list and loads a subtask list;

and processing the subtasks in the subtask list, and generating a record report corresponding to the subtasks according to the data in the selected database, the data processing mode and the project template.

5. An electric energy phenotype type evaluation online detection and data processing system is characterized by comprising: the system comprises a plurality of clients and at least one cloud server, wherein the clients are respectively in communication connection with the cloud server, and the cloud server is also in communication connection with an institution office system server;

the cloud server is used for realizing the functions of distributing test projects, processing record reports, merging record reports, inquiring type evaluation progress, processing project templates, managing test processes, transferring test services, interacting information with the process cards of the hospital office system, managing original records and reports and extracting test process records for the plurality of clients, and providing information connection and data support.

6. The system for online detection and data processing of electric energy phenotype type evaluation according to claim 5, wherein the cloud server comprises:

the acquisition module is used for acquiring request information which is initiated by a plurality of clients and is related to the electric energy phenotype type evaluation test;

the project allocation module is used for receiving the test project allocation request, downloading a type evaluation task table through the hospital office system server, and allocating a plurality of subtasks for the test project according to the tasks recorded in the type evaluation task table;

the record report processing module is used for receiving a record report processing request, downloading the evaluation task progress list through the hospital and office system server, processing the subtasks and generating record reports corresponding to the subtasks;

the record report merging module is used for judging whether the plurality of subtasks are completely finished or not, merging the record reports corresponding to all the subtasks after the plurality of subtasks are completely finished, and generating a total report;

the test equipment management module is used for distributing an equipment unique identification code and a test item binding code for each test equipment for the electric energy phenotype evaluation and managing each test equipment;

the test process management module is used for managing and recording the type evaluation test process of each test item;

the database is used for storing the data received and generated by the project distribution module, the record report processing module, the record report merging module, the test equipment management module and the test process management module; and

the interaction module is used for carrying out information interaction with the hospital office system server and uploading the total report to the hospital office system server;

the request information related to the electric energy phenotype type evaluation test comprises test project distribution, record report processing, record report merging, type evaluation progress inquiry, project template processing, test progress management, test service circulation, information interaction with a courtyard office system flow card, original record and report management and test flow record extraction.

7. The system according to claim 6, wherein when the request information related to the electric energy phenotype evaluation test includes a test business flow, the cloud server further includes a business flow module, and the business flow module is configured to flow a subtask to be handed over to a name of a jointer, and the jointer continues to process the subtask.

8. The system of claim 6, wherein when the request information related to the electric energy phenotype type evaluation test includes a type evaluation progress query, the cloud server further includes a query module, and the query module is configured to receive the type evaluation progress query request, retrieve a type evaluation test progress of a corresponding test item in the test progress management module, and feed back the retrieved type evaluation test progress to the requesting client.

9. The system of claim 6, wherein when the request information related to the electric energy phenotype type evaluation test includes project template processing, the cloud server further includes a project template processing module, and the project template processing module is configured to enable a requesting client to generate and upload a project template in a customized manner.

10. The system of claim 6, wherein the database is a SQL2015 database.

Images