CN112073513A

CN112073513A - Cooperative processing method, device and system for metering forced inspection service

Info

Publication number: CN112073513A
Application number: CN202010934394.3A
Authority: CN
Inventors: 李静; 王海; 张涛; 丰苏; 王欢; 张君维; 魏颖昊; 段春霞
Original assignee: Information Center Of State Administration Of Market Supervision
Current assignee: Information Center Of State Administration Of Market Supervision
Priority date: 2020-09-08
Filing date: 2020-09-08
Publication date: 2020-12-11
Anticipated expiration: 2040-09-08
Also published as: CN112073513B

Abstract

The invention provides a cooperative processing method, a device and a system for metering strong inspection business, wherein when verification processing is carried out, a task assignment engine in an e-CQS metering strong inspection platform is used for uniformly distributing verification tasks, and then the verification tasks are issued to a target local office self-built system through a verification task issuing interface in the e-CQS metering strong inspection platform so that the target local office self-built system processes the verification tasks and generates verification results, and then the verification results are received through a verification result reporting interface which is preset in the e-CQS metering strong inspection platform. The invention realizes the communication between the e-CQS metering strong detection platform and the local bureau self-built system through the interface preset in the e-CQS metering strong detection platform, and realizes the uniform issuing of the verification task through the task assignment engine in the e-CQS metering strong detection platform, namely, the business cooperation between the e-CQS metering strong detection platform and the local bureau self-built system.

Description

Cooperative processing method, device and system for metering forced inspection service

Technical Field

The invention relates to the field of data interaction sharing, in particular to a cooperative processing method, a cooperative processing device and a cooperative processing system for a metering forced inspection service.

Background

Metering is one of the important national quality bases, and the mandatory certification of a metering appliance is an important component of the metering business. In order to realize the compulsory verification of the measuring instrument, corresponding measuring technical mechanisms are arranged in a plurality of regions in the country, such as local office self-building systems established in each region.

The self-built systems of each local bureau independently process the service, and the service processing rules are different, so that the service processing process between the self-built systems of each local bureau is not uniform.

Disclosure of Invention

The invention provides a cooperative processing method, a cooperative processing device and a cooperative processing system for metering forced inspection services, which are used for solving the problem that the service processing processes among self-built systems of various local offices are not uniform due to different service processing rules among the self-built systems of various local offices.

In order to solve the technical problems, the invention adopts the following technical scheme:

a cooperative processing method for metering strong detection service is applied to an e-CQS metering strong detection platform, and comprises the following steps:

acquiring a verification processing request;

running a task assignment engine preset in the e-CQS metering strong inspection platform to enable the task assignment engine to respond to the verification processing request, generating a verification task according to the verification processing request, determining a target local office self-established system for processing the verification task, and issuing the verification task to the target local office self-established system through a verification task issuing interface preset in the e-CQS metering strong inspection platform to enable the target local office self-established system to process the verification task;

and receiving the verification result which is generated after the verification task is successfully processed by the target local office self-built system and uploaded by calling a verification result reporting interface which is preset in the e-CQS metering strong detection platform.

Optionally, determining a target local office self-built system for processing the certification task comprises:

determining whether a local office self-built system exists that has performed a certification task on the target appliance in the certification processing request;

if so, determining the obtained local office self-building system as a target local office self-building system for processing the verification task;

if not, determining at least one local office self-established system located in the region to which the target appliance belongs according to the region to which the target appliance belongs in the verification processing request, and determining the local office self-established system which has the verification capability of the target appliance and is closest to the position of the target appliance in the at least one local office self-established system as the target local office self-established system for processing the verification task.

Optionally, before the obtaining of the certification processing request, the method further includes:

acquiring a code acquisition request sent by calling a preset data interface by at least one local office self-built system; the code acquisition request comprises an appliance code acquisition request or a certificate code acquisition request; the preset data interface comprises a certificate unified coding issuing interface or an appliance unified coding issuing interface which is preset in an e-CQS metering strong detection platform;

operating a unified coding engine preset in the e-CQS metering strong detection platform, so that the unified coding engine sequentially distributes coding segments corresponding to the code acquisition requests to the at least one local office self-construction system according to the sequence of the received code acquisition requests, and transmits the coding segments to the corresponding local office self-construction system through the preset data interface;

the unified encoding engine comprises a certificate unified encoding engine or an appliance unified encoding engine; the appliance code acquisition request, the appliance unified coding engine and the appliance unified code issuing interface correspond to each other; the certificate code acquisition request, the certificate unified coding engine and the certificate unified code issuing interface correspond to each other.

Optionally, the method further comprises:

operating the unified coding engine to enable the unified coding engine to acquire the residual coding number of the target local office self-building system determined according to the verification number in the verification result, distributing target coding segments of a target number to the target local office self-building system under the condition that the residual coding number is less than a preset residual threshold value, and sending the target coding segments to the target local office self-building system through the preset data interface; and the preset residual threshold and the target coding segment are determined by the coding segment distributed to the local office self-construction system of the target.

Optionally, after issuing the verification task to the target local office self-built system through a verification task issuing interface preset in the e-CQS metering strong inspection platform, the method further includes:

and acquiring verification progress data uploaded by the target local bureau self-built system by calling a verification receipt reporting interface preset in the e-CQS metering strong inspection platform.

Optionally, the method further comprises:

and acquiring updated verification capability data uploaded by at least one local bureau self-built system through a mechanism verification capability reporting interface preset in the e-CQS metering strong inspection platform.

Optionally, the method further comprises:

acquiring a verification period expiration data acquisition request generated by issuing an interface by calling a verification period reminder preset in the e-CQS metering strong inspection platform by at least one local bureau self-built system;

acquiring verification period expiration data corresponding to the local bureau self-built system;

and issuing the verification period expiration data to the corresponding local office self-built system through the verification period reminding issuing interface.

A cooperative processing method for metering strong inspection service is applied to a local office self-construction system, and comprises the following steps:

obtaining a verification processing request at an e-CQS strong measurement platform, operating a task assignment engine preset in the e-CQS strong measurement platform to enable the task assignment engine to respond to the verification processing request, generating a verification task according to the verification processing request, determining a target local office self-established system for processing the verification task, receiving the verification task sent by the e-CQS strong measurement platform through a verification task issuing interface preset in the e-CQS strong measurement platform, and processing the verification task to obtain a verification result after the target local office self-established system is determined as the target local office self-established system;

and calling a verification result reporting interface preset in the e-CQS metering strong inspection platform to upload the verification result to the e-CQS metering strong inspection platform.

Optionally, before the processing the verification task to obtain the verification result, the method further includes:

sending a code acquisition request to the e-CQS metering strong inspection platform by calling a preset data interface; the code acquisition request comprises an appliance code acquisition request or a certificate code acquisition request; the preset data interface comprises a certificate unified coding issuing interface or an appliance unified coding issuing interface which is preset in an e-CQS metering strong detection platform;

acquiring a code segment which is determined by a unified code engine in the e-CQS metering strong detection platform, corresponds to the code acquisition request and is issued through the preset data interface;

Optionally, processing the verification task to obtain a verification result, including:

processing the verification task to obtain a verification initial result;

under the condition that the verification initial result is qualified, selecting a target code from the code segments according to a preset code segment selection rule;

determining a verification result, the verification result comprising the target code and the verification initial result.

Optionally, after invoking a verification result reporting interface preset in the e-CQS metering strong inspection platform to upload the verification result to the e-CQS metering strong inspection platform, the method further includes:

running the unified coding engine on the e-CQS metering strong inspection platform to enable the unified coding engine to obtain the residual coding quantity of the local bureau self-constructed system determined according to the verification number in the verification result, and under the condition that the residual coding quantity is less than a preset residual threshold value, distributing target coding sections of the target quantity to the local bureau self-constructed system and then obtaining target coding sections issued by the e-CQS metering strong inspection platform through the preset data interface; and the preset residual threshold and the target coding segment are determined by the coding segment distributed to the local office self-construction system of the target.

Optionally, in the process of processing the verification task to obtain the verification result, the method further includes:

generating verification progress data, and calling a verification receipt reporting interface preset in the e-CQS metering strong inspection platform to upload the verification progress data to the e-CQS metering strong inspection platform.

Optionally, the method further comprises:

and acquiring updated verification capability data of the local bureau self-built system, and uploading the verification capability data to the e-CQS metering strong inspection platform by calling a technical mechanism verification capability reporting interface preset in the e-CQS metering strong inspection platform.

Optionally, the method further comprises:

calling a verification period reminding issuing interface preset in the e-CQS metering strong inspection platform to generate a verification period expiration data acquisition request, wherein the verification period expiration data acquisition request is used for enabling the e-CQS metering strong inspection platform to determine verification period expiration data corresponding to the local bureau self-built system;

and after the e-CQS metering strong inspection platform acquires the verification period expiration data corresponding to the local bureau self-established system, acquiring the verification period expiration data issued by an issuing interface through the verification period reminding of the e-CQS metering strong inspection platform.

A measurement is examined in coordination with processing apparatus of the business strongly, apply to the platform that is examined in e-CQS measurement strongly, the said measurement examines the coordination with processing apparatus of the business strongly including:

the request acquisition module is used for acquiring a verification processing request;

the task issuing module is used for operating a task assignment engine preset in the e-CQS metering strong inspection platform so as to enable the task assignment engine to respond to the verification processing request, generating a verification task according to the verification processing request, determining a target local office self-established system for processing the verification task, and issuing the verification task to the target local office self-established system through a verification task issuing interface preset in the e-CQS metering strong inspection platform so as to enable the target local office self-established system to process the verification task;

and the result receiving module is used for receiving the verification result which is generated after the target local office self-built system successfully processes the verification task and is uploaded by calling a verification result reporting interface which is preset in the e-CQS metering strong inspection platform.

A cooperative processing device for metering forced inspection service is applied to a local office self-building system, and comprises:

the system comprises a task processing module, a verification task issuing interface and a verification task processing module, wherein the task processing module is used for acquiring a verification processing request on an e-CQS (enhanced metrology inspection) platform, operating a task assignment engine preset in the e-CQS metrology enhanced inspection platform, enabling the task assignment engine to respond to the verification processing request, generating a verification task according to the verification processing request, determining a target local office self-established system for processing the verification task, receiving the verification task sent by the e-CQS metrology enhanced inspection platform through the verification task issuing interface preset in the e-CQS metrology enhanced inspection platform, and processing the verification task to obtain a verification result;

and the result uploading module is used for calling a verification result reporting interface which is preset in the e-CQS metering strong inspection platform to upload the verification result to the e-CQS metering strong inspection platform.

A measurement strong inspection service cooperative processing system comprises an e-CQS measurement strong inspection platform and a plurality of local bureau self-built systems; the e-CQS metering strong detection platform is used for executing the cooperative processing method of the metering strong detection service; the local office self-built system is used for executing the cooperative processing method of the metering strong detection service.

Compared with the prior art, the invention has the following beneficial effects:

the invention provides a cooperative processing method, a device and a system for metering strong inspection business, wherein when verification processing is carried out, a task assignment engine in an e-CQS metering strong inspection platform is used for uniformly distributing verification tasks, then a verification task issuing interface preset in the e-CQS metering strong inspection platform is used for issuing the verification tasks to a target local office self-construction system, so that the target local office self-construction system processes the verification tasks, and after the target local office self-construction system successfully processes the verification tasks and generates verification results, the verification results are received through a verification result reporting interface preset in the e-CQS metering strong inspection platform. According to the invention, the communication between the e-CQS metering strong detection platform and the local bureau self-built system is realized through the interface preset in the e-CQS metering strong detection platform, and further the uniform issuing of verification tasks is realized through the task assignment engine in the e-CQS metering strong detection platform, namely the business cooperation between the e-CQS metering strong detection platform and each local bureau self-built system is realized.

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 structural diagram of a measurement forced inspection service cooperative processing system according to an embodiment of the present invention;

fig. 2 is a flow chart of a cooperative processing for metering a strong inspection service according to an embodiment of the present invention;

fig. 3 is a flowchart of a method of a cooperative processing method for metering a strong inspection service according to an embodiment of the present invention;

fig. 4 is a flowchart of another method for cooperative processing of a metered forced inspection service according to an embodiment of the present invention;

fig. 5 is a flowchart of a method of a cooperative processing method for metering a strong inspection service according to another embodiment of the present invention;

FIG. 6 is a schematic diagram of a layout scene of an e-CQS metering strong inspection platform according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a cooperative processing apparatus for metering a strong inspection service according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of another cooperative processing apparatus for metering a deep inspection service according to an embodiment of 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.

In the prior art, services are independently processed among the local bureau self-construction systems, and service processing rules are different, so that service processing processes among the local bureau self-construction systems are not uniform.

In order to solve the technical problems, the inventor finds that an e-CQS metering strong detection platform can be built, and a plurality of communication interfaces can be added in the e-CQS metering strong detection platform, so that the communication between the e-CQS metering strong detection platform and a local bureau self-built system is carried out through the communication interfaces. In addition, a plurality of service engines can be added in the e-CQS metering strong detection platform, and service unified scheduling of the e-CQS metering strong detection platform and a local bureau self-built system is unified by operating the service engines, so that service cooperation is realized.

Specifically, the invention builds an e-CQS metering strong detection platform and a local bureau self-built system in advance, and refers to fig. 1. The communication interface added on the e-CQS measurement strong detection platform is mainly concentrated on an e-CQS strong detection platform application layer, and a service engine is mainly arranged on an application support layer. The following introduces an e-CQS metering strong detection platform and a local bureau self-built system respectively.

(1) E-CQS metering strong detection platform

The e-CQS metering strong detection platform is a business platform developed and constructed by a market supervision bureau and based on a market supervision technology architecture, mainly completes the verification business of a compulsory verification work metering device, and is divided into the following steps: a user layer, a portal layer, an application support layer, a data layer, and an infrastructure layer.

And (3) a user layer: the user layer is a service object of the platform, including social public, enterprises, government departments, and technical organizations.

And (3) portal layer: the portal layer is a 'window' for providing services by the platform, and comprises a public service portal, a handheld supervision portal and a business cooperation portal. The public service portal and the handheld supervision portal serve social public, enterprises and technical institutions; the business collaboration portal serves market regulatory personnel.

An application layer: including system applications and interface services. The system application comprises functions of verification capability maintenance, instrument standing book maintenance, verification appointment, verification acceptance, instrument verification, verification result registration and the like. The interface service comprises a technical organization verification capability reporting interface, a certificate uniform number issuing interface, an appliance uniform code issuing interface, a verification period expiration reminding issuing interface, a verification task issuing interface, a verification receipt reporting interface and a verification result data reporting interface.

Applying a support layer: the system is composed of components called by a support application layer, and comprises a task assignment engine, an appliance unified coding engine, a certificate unified numbering engine, an electronic signature, an electronic certificate, an electronic form and the like.

And (3) a data layer: the big data center comprises functions of data management, data acquisition, data exchange and the like and consists of a basic information base and a business special topic base. All application layer generated data, all precipitated to the big data center. The detailed structure of the data layer is described with reference to fig. 1,.

Infrastructure layer: the method mainly comprises a network environment and a hardware supporting environment, such as a cloud computing service platform, on which an e-CQS measurement strong detection platform is operated.

(2) Local bureau self-building system

The local bureau self-building system mainly comprises a system which is developed and built by all levels of local administrative departments and metering technical organizations in the whole country and completes the calibration business of a compulsory calibration work metering device, and mainly comprises a provincial level self-building system, a local city level self-building system and a district and county level self-building system.

(3) Relationship between e-CQS metering strong detection platform and local bureau self-built system

The e-CQS metering forced inspection platform and the local self-built system carry out data interaction in an interface calling mode, mainly comprises the issuing and reporting of service data, realizes the communication of cross-platform service data streams, and forms a metering forced inspection service closed loop.

Referring to fig. 2, the invention adopts a '3 + 7' strategy, and realizes the business cooperation of the central office and the local offices by a mode that an e-CQS metering strong detection platform is in butt joint with self-built system interfaces of each local office. "3" means that 3 independent engines are developed, three service rules are respectively executed, and the unification of the core service rules is realized through the calling of the engines; and 7 refers to 7 interfaces and is responsible for data interaction between the e-CQS metering strong inspection platform and self-built systems of various places to realize business cooperation between the central office and the local offices.

(1) Developing 3 engines

A "task assignment engine" is developed. The engine assigns tasks according to the clear rules in the metering method for the forced inspection work metering instrument application, automatically matches the administrative divisions of the instrument use region and the verification capability of the technical mechanism, and distributes the work tasks to the metering technical mechanism. The e-CQS platform realizes the platform centralized application of the national heavy duty working meters, so the national uniform assignment of the verification tasks of the national heavy duty working meters is realized through the task assignment engine.

Developing a certificate unified coding engine and an appliance unified numbering engine to generate a certificate code of nationwide unified forced inspection work measuring appliances and a forced inspection work measuring appliance code, and distributing code segments according to the number applied by technical institutions. When the system is distributed for the first time, each local bureau needs to build a system self-call engine, and then the e-CQS metering strong inspection platform automatically supplements the warehouse according to the threshold value set by the local self-building system. And through the calling of the two engines, the unified coding of the national forced inspection work measuring instrument certificate and the unified numbering of the national forced inspection work measuring instrument are realized.

(2) Developing 7 interfaces

And 7 interfaces are developed to realize data interaction between the e-CQS platform and the self-built systems of each local bureau.

1. Interface flow

After the measuring technical mechanism maintains the verification capability in a local office self-construction system (self-construction system for short), the verification capability is reported to an e-CQS measuring strong-inspection platform from the self-construction system by calling a 'technical mechanism verification capability reporting interface'. The interface is invoked when an institution verification capability registers or changes.

The e-CQS metering strong inspection platform generates a uniform code of a national compulsory verification working meter certificate and a uniform number of the compulsory verification working meter, issues the uniform code issuing interface of the certificate and the uniform code issuing interface of the instrument to the local self-construction system, and is used in the process of handling business by the local self-construction system. Because the code segment is transmitted by calling the interface every time, the 'certificate uniform number transmitting interface' and the 'appliance uniform number transmitting interface' are called again only when the uniform code of the resource pool certificate of the metering technical organization or the uniform number allowance of the appliance reaches the threshold value.

The e-CQS metering forced inspection platform carries out standing book maintenance of forced inspection equipment, issues verification period early warning data (equipment expiration data) to self-built systems of various places by calling a verification period expiration reminding issuing interface, and carries out early warning reminding. The interface is invoked when verification expiration warning data is generated.

The e-CQS metering strong inspection platform carries out verification appointment and verification task distribution, and issues verification task data to self-built systems of various places by calling a verification task issuing interface; after the metering technical mechanism is accepted by the self-built system verification, a verification receipt reporting interface is called to report the mechanism acceptance condition to an e-CQS metering strong inspection platform; after the verification work is finished, the metering technical mechanism registers results, and reports verification result data to the e-CQS metering strong inspection platform by calling a verification result data reporting interface. The three interfaces are called from the process of applying for verification of each measuring instrument to the process of completing verification, and are the interface groups which are called most frequently.

2. Interface function

Firstly, a technical mechanism verification capability reporting interface: the interface synchronizes the data (basic mechanism information, verification capability information and authorized area information) of technical mechanisms in the district of the local self-built system to the e-CQS metering strong inspection platform, namely, the maintenance of the verification capability of related mechanisms is completed, and the effect of one-time recording of multiple systems is ensured.

Secondly, the certificate is numbered uniformly and issued with an interface: the interface numbers the certificates of national compulsory verification working measuring instruments generated by the e-CQS metering forced inspection platform in a unified way to a local self-building system synchronously, and codes the verified instrument certificates in the verification result registration link to realize the unified numbering of the national compulsory verification working measuring instruments verification certificates.

Thirdly, the appliance uniformly encodes and issues an interface: the interface uniformly codes nationwide compulsory verification working measuring instruments generated by the e-CQS metering forced inspection platform, synchronously gives local self-building systems, and codes the verified instruments in a verification result registration link, so that the nationwide compulsory verification working measuring instruments are uniformly numbered.

Fourthly, the verification period is due to remind and issue the interface: the interface synchronizes the appliance information, verification result information and verification period information of the e-CQS measurement forced inspection platform to a local self-built system for local supervision.

Fifthly, a verification task issuing interface: the interface distributes appliance verification tasks (reservation application information and strong inspection appliance information) generated by the declaration of the e-CQS metering strong inspection platform to corresponding local self-built systems, and local metering technical mechanisms receive the verification tasks and then perform the acceptance work of the verification tasks through the self-built systems.

Sixthly, a verification receipt reporting interface: the local self-built system synchronizes the acceptance condition (information such as acceptance, non-acceptance and application reassignment) of the verification task to the e-CQS metering strong inspection platform, and the platform discloses the acceptance progress to the appliance use unit.

Seventhly, a verification result data reporting interface: the interface synchronizes verification result information (using unit information, appliance information and verification information) of the local self-built system to the e-CQS metering strong detection platform to realize the collection of verification data results.

Specifically, on the basis of the architecture of the e-CQS metering strong inspection platform and the local bureau self-established system, another embodiment of the present invention provides a cooperative processing method for metering strong inspection service, which is applied to the e-CQS metering strong inspection platform, and with reference to fig. 3, the cooperative processing method for metering strong inspection service includes:

and S11, acquiring a verification processing request.

Specifically, a user can log in the e-CQS metering and forced inspection platform through a user name and a password, click an instrument ledger maintenance function in the application, view all instruments of the company, such as a fuel gun, and the like, and further display an instrument expiration date on an interface, the user can select an instrument to be expired through a click operation, and then click a verification confirmation button, at this time, a verification reservation application in the e-CQS metering and forced inspection platform can receive the verification processing request, and the verification processing request includes a target instrument to be verified.

And S12, running a task assignment engine preset in the e-CQS metering strong inspection platform to enable the task assignment engine to respond to the verification processing request, generating a verification task according to the verification processing request, determining a target local office self-established system for processing the verification task, and issuing the verification task to the target local office self-established system through a verification task issuing interface preset in the e-CQS metering strong inspection platform to enable the target local office self-established system to process the verification task.

Specifically, the e-CQS metering and forced inspection platform runs a task assignment engine preset in the e-CQS metering and forced inspection platform, the task assignment engine responds to the verification processing request, generates a verification task according to the verification processing request, and determines a target local office self-built system for processing the verification task. The task assignment engine may generate a certification task, specifically, a certification task including a target instrument to be certified and a certification due time.

In addition, when the task assignment engine determines the target local office self-established system, whether the target appliance in the verification task is verified before is judged, if yes, the local office self-established system with the verified target appliance is obtained, and the local office self-established system is determined to be the target local office self-established system.

If the target appliance is verified for the first time, selecting a local office self-building system with a verification function for the target appliance by adopting a nearby principle, specifically, firstly obtaining a region of the target appliance, such as a sunny region in Beijing, obtaining all local office self-building systems located in the region, and then determining the local office self-building system which has the target appliance verification capability and is closest to the position of the target appliance in all the local office self-building systems as the target local office self-building system for processing the verification task.

After the task assignment engine determines the target local office self-establishment system, the task assignment engine sends the determined target local office self-establishment system to a verification acceptance application, and the verification acceptance application issues the verification task to the target local office self-establishment system, wherein when the verification task is issued to the target local office self-establishment system, a verification task issuing interface in an application layer is called to issue to the target local office self-establishment system, and the target local office self-establishment system processes the verification task after receiving the verification task. When the target local office self-built system processes the verification task, verification progress data can be generated in real time, such as during verification and after verification, and then the target local office self-built system reports the verification progress data to verification acceptance application in an application layer by calling a verification receipt reporting interface in the application layer.

And S13, receiving the verification result which is generated after the verification task is successfully processed by the target local office self-built system and uploaded by calling a verification result reporting interface which is preset in the e-CQS metering strong inspection platform.

In practical applications, the target local office self-built system will generate a verification result after successfully processing the verification task. The target local office self-building system calls a verification result reporting interface (for example, a verification result data reporting interface in fig. 2) in the application layer to report the detection result to the verification result registration application in the application layer.

Compared with the original mode that the self-built systems of all local offices process the verification processing requests, the e-CQS metering strong inspection platform can monitor the processing tasks of the self-built systems of the local offices and realize the unified supervision and the business collaboration of key processing tasks.

The e-CQS metering strong detection platform can realize the function of uniformly issuing the verification tasks and also can realize the function of updating the verification capability data of the local office self-construction system, and after the local office self-construction system determines the updated verification capability data of the local office self-construction system, the local office self-construction system calls a mechanism verification capability reporting interface in the application layer to upload the updated verification capability data to verification capability maintenance application in the application layer.

In addition, the e-CQS metering strong inspection platform also supports the query of the verification period expiration data of the user, such as the query of which appliances are expired in the month and the like. Specifically, if the local bureau self-establishment system wants to query the verification period expiration data, a verification period reminder issuing interface in the e-CQS metering strong inspection platform is called through a user click operation, then a verification period expiration data acquisition request is automatically generated through calling the interface, and the ledger maintenance application in the e-CQS metering strong inspection platform automatically queries the verification period expiration data of the user, such as querying an expiration appliance of a certain company in the month, or querying an expiration appliance of a jurisdiction of the month by a metering administration department.

After the verification period expiration data is obtained through query in the e-CQS metering strong inspection platform, the verification period expiration data is issued to the corresponding local bureau self-built system through a verification period reminding issuing interface.

In this embodiment, during verification processing, a task assignment engine in an e-CQS metering and forced inspection platform is used to uniformly distribute verification tasks, and then a verification task issuing interface preset in the e-CQS metering and forced inspection platform is used to issue the verification tasks to the target local office self-built system, so that the target local office self-built system processes the verification tasks, and after the target local office self-built system generates verification results after successfully processing the verification tasks, the verification results are received through a verification result reporting interface preset in the e-CQS metering and forced inspection platform. The invention realizes the communication between the e-CQS metering strong detection platform and the local bureau self-built system through the interface preset in the e-CQS metering strong detection platform, and realizes the uniform issuing of the verification task through the task assignment engine in the e-CQS metering strong detection platform, namely, the business cooperation between the e-CQS metering strong detection platform and the local bureau self-built system.

In the foregoing embodiment, the task assignment engine issues the verification task to the local office self-established system, and in practical application, when the local office self-established system executes the verification task, the appliance code and the certificate code may be used, and in order to implement code control of the e-CQS metering strong inspection platform on the local office self-established system, in an embodiment of the present invention, the e-CQS metering strong inspection platform is used to uniformly issue the appliance code and the certificate code to the local office self-established system, specifically, referring to fig. 4, before step S11, the method may further include:

and S21, acquiring a code acquisition request sent by at least one local office self-built system by calling a preset data interface.

Specifically, when the appliance code and the certificate code are distributed for the first time, the local bureau self-built system requests the appliance code and the certificate code, and the e-CQS metering strong inspection platform receives code acquisition requests sent by a plurality of local bureau self-built systems through calling preset data interfaces. The code acquisition request comprises the number of codes required by the local office self-building system.

The preset data interfaces can be two types, namely a certificate unified coding issuing interface and an appliance unified coding issuing interface.

If the local bureau self-establishes the system to request the appliance code, calling the appliance unified code issuing interface, wherein the generated code acquiring request is the appliance code acquiring request, and if the local bureau self-establishes the system to request the certificate code, calling the certificate unified code issuing interface, wherein the generated code acquiring request is the certificate code acquiring request.

It should be noted that, if the multiple local bureaus self-built systems send the code acquisition requests sequentially, the e-CQS metering strong detection platform will process the requests sequentially according to the sequence of the received requests.

And S22, operating a unified coding engine preset in the e-CQS metering strong detection platform, so that the unified coding engine sequentially distributes coding segments corresponding to the code acquisition requests to the at least one local office self-construction system according to the sequence of the received code acquisition requests, and sends the coding segments to the corresponding local office self-construction system through the preset data interface.

After receiving the code acquisition request, the e-CQS metering and strong-checking platform runs a unified coding engine arranged in the e-CQS metering and strong-checking platform, and then the unified coding engine processes the requests in sequence according to the sequence of the received requests, specifically, the processing requests specifically refer to allocation of code segments corresponding to the number of codes required in the requests, for example, assuming that the number of codes carried in each request is 1 ten thousand, the codes 1 to 10000,20000- > 2000000 30000 … … are allocated to the corresponding local office self-building systems according to the sequence of request reception. And then the data is transmitted to a local office self-building system through a preset data interface.

It should be noted that, in this embodiment, the unified coding engine includes a certificate unified coding engine or an appliance unified coding engine.

The appliance code acquisition request, the appliance unified coding engine and the appliance unified code issuing interface correspond to each other, that is, when the appliance code acquisition request is received by calling the appliance unified code issuing interface, the appliance unified coding engine is called to perform coding processing, and the appliance unified code issuing interface is issued to the local office self-built system.

In addition, the certificate code acquisition request, the certificate unified coding engine and the certificate unified coding issuing interface correspond to each other.

After the code segment corresponding to the code acquisition request is issued to the local office self-built system through a certificate unified code issuing interface or an appliance unified code issuing interface preset in the e-CQS metering strong inspection platform, the local office self-built system can verify the appliance in the process of executing the verification task to obtain a verification initial result, wherein the verification initial result can be qualified or unqualified, and if the verification initial result is unqualified, the unqualified result is directly determined as the verification result. If the appliance code is qualified, the appliance code and the appliance code (i.e., the target code) are assigned to the appliance. In the process of assigning codes, the smallest code is selected from among unused code segments, and the codes are assigned to the appliances.

It should be noted that the certificate code needs to be assigned each time the certification is qualified, but the appliance code needs to be assigned only once, i.e. each appliance has its corresponding appliance code. The final certification result comprises a qualified or unqualified initial certification result, and a certificate code and an appliance code which are allocated to the appliance, wherein when the appliance is not checked for the first time, the appliance code is not allocated to the appliance. Whether the verification is the first verification or not can be judged by judging whether the verification processing request comprises the appliance code filled by the user or not, if so, the verification is not the first verification, and if not, the verification is the first verification.

When the local bureau self-establishment system executes the verification task, the certificate code and the appliance code are continuously consumed, and in order to avoid the situation that the certificate code and the appliance code of the local bureau self-establishment system are not enough, the e-CQS metering strong inspection platform is set to be capable of automatically supplementing the certificate code and the appliance code of the local bureau self-establishment system. Specifically, the unified coding engine is operated, and after receiving a verification result issued by the local office self-established system each time, the unified coding engine obtains the remaining code quantity of the target local office self-established system determined according to the verification number in the verification result, for example, if the number allocated to the local office self-established system is 1-10000, and the verification number in the verification result received this time is 6000, it indicates that 4000 numbers of 60001 and 10000 are not used, and then a preset remaining threshold value is set, for example, 5000, and if the remaining code quantity is less than the threshold value, it indicates that the remaining quantity of the local office self-established system is not large, and the warehouse needs to be refilled as soon as possible.

And under the condition that the residual code quantity is less than a preset residual threshold value, allocating target code segments of a target quantity to the target local office self-construction system, wherein the preset residual threshold value and the target code segments are both determined by the code segments allocated to the target local office self-construction system, and if the target code segments are 50% of the allocated code segments, the preset residual threshold value can be 60% of the code segments. For example, assuming that the first allocated code segment is 0-10000, when the number of remaining codes is less than 10000 × 60%, 10000 × 50% of codes are allocated again to the local self-established system corresponding to the code segment.

And issuing the target code segment to the local office self-construction system of the target through the preset data interface.

In this embodiment, uniform distribution of the certificate codes and the appliance codes can be realized, unification and normalization of the certificate numbers and the appliance numbers of appliances in various regions are realized, and when the number of remaining codes is small, automatic replenishment is performed, so that practicality of the certificate numbers and the appliance codes is ensured.

Optionally, on the basis of the above embodiment of the cooperative processing method for metering strong inspection service applied to the e-CQS metering strong inspection platform, another embodiment of the present invention provides a cooperative processing method for metering strong inspection service, which is applied to a local office self-established system, and with reference to fig. 5, the cooperative processing method for metering strong inspection service may include:

s31, obtaining a verification processing request on an e-CQS strong measurement platform, operating a task assignment engine preset in the e-CQS strong measurement platform to enable the task assignment engine to respond to the verification processing request, generating a verification task according to the verification processing request, determining a target local office self-built system for processing the verification task, receiving the verification task sent by the e-CQS strong measurement platform through a verification task issuing interface preset in the e-CQS strong measurement platform after the target local office self-built system is the local office self-built system, and processing the verification task to obtain a verification result;

and S32, calling a verification result reporting interface preset in the e-CQS metering strong inspection platform to upload the verification result to the e-CQS metering strong inspection platform.

Further, processing the verification task to obtain a verification result, including:

processing the verification task to obtain a verification initial result;

Further, after calling a verification result reporting interface preset in the e-CQS metering strong inspection platform to upload the verification result to the e-CQS metering strong inspection platform, the method further includes:

running the unified coding engine on the e-CQS metering strong inspection platform to enable the unified coding engine to obtain the residual coding quantity of the local bureau self-constructed system determined according to the verification number in the verification result, and under the condition that the residual coding quantity is less than a preset residual threshold value, distributing target coding sections of the target quantity to the local bureau self-constructed system and then obtaining target coding sections issued by the e-CQS metering strong inspection platform through the preset data interface; the preset residual threshold value and the target code segment are determined by the code segment distributed to the local self-construction system of the target

Further, in the process of processing the verification task to obtain a verification result, the method further includes:

Further, still include:

It should be noted that, for the specific implementation process of each step in this embodiment, please refer to the corresponding parts in the above embodiments, which are not described herein again.

Through the cooperative processing method of all the metering forced inspection services, the following beneficial effects can be realized:

1. realizing national core business rule unification by developing engine

The method develops a task assignment engine, an appliance unified coding engine and a certificate unified numbering engine, realizes a standard, universal and unified core business process on an e-CQS metering strong inspection platform, and ensures the national core business rules to be unified. The self-built systems of various places complete personalized services, and the coexistence of the 'commonalities' and 'personalities' of the service rules and the processes is realized. The problem of inconsistent informatization construction of various regions is solved well.

2. System communication through interface mode

The data is issued and reported between the e-CQS metering strong detection platform and the self-built systems of all places through interface butt joint, and after all processes are finished, the data is collected to the e-CQS metering strong detection platform. Real production data flow between a central office platform and a local self-built system in real time is realized, and a service closed loop is formed by a cross-platform heterogeneous system. The method realizes the business cooperation of the e-CQS strong inspection platform of the bureau and 1000 self-built systems in a plurality of places in the country.

3. System application and interface service independent deployment

And respectively and independently deploying system application (realizing functions of verification capability maintenance, instrument standing book maintenance, verification appointment, verification acceptance, instrument verification, verification registration and the like) and interface service (the deployment diagram is shown in fig. 6) on the e-CQS metering and forced inspection platform. The independent deployment has the advantages that the coupling of system application and interface service is reduced, frequent data interaction is generated due to the fact that the e-CQS platform is in butt joint with a self-built system in the country, a large number of users apply to the system, the response speed and the efficiency of the interface service are guaranteed, and meanwhile the stability of the system application is guaranteed.

4. Explicit interface exception prompting

In the json string of WebService, the detailed description of the interface return value is set, the interface docking friendliness is enhanced, the interface abnormity is rapidly and independently checked, the docking problem is accurately positioned, manual support and intervention are reduced, and the working efficiency is improved.

Optionally, on the basis of the above embodiment of the cooperative processing method for metering strong inspection service applied to the e-CQS metering strong inspection platform, another embodiment of the present invention provides a cooperative processing apparatus for metering strong inspection service, which is applied to the e-CQS metering strong inspection platform, and with reference to fig. 7, the cooperative processing apparatus for metering strong inspection service includes:

a request obtaining module 11, configured to obtain a verification processing request;

a task issuing module 12, configured to run a task assignment engine preset in the e-CQS metrology strong inspection platform, so that the task assignment engine responds to the verification processing request, generates a verification task according to the verification processing request, determines a target local office self-established system for processing the verification task, and issues the verification task to the target local office self-established system through a verification task issuing interface preset in the e-CQS metrology strong inspection platform, so that the target local office self-established system processes the verification task;

and the result receiving module 13 is configured to receive the verification result which is generated after the target local office self-built system successfully processes the verification task and is uploaded by calling a verification result reporting interface preset in the e-CQS metering and forced inspection platform.

Further, when the task issuing module 12 is used to determine the target local office self-established system for processing the verification task, it is specifically configured to:

Further, it preferably comprises:

the code issuing module is used for acquiring a code acquisition request sent by calling a preset data interface by at least one local office self-built system before the request acquisition module 11 acquires the verification processing request; the code acquisition request comprises an appliance code acquisition request or a certificate code acquisition request; the preset data interface comprises a certificate unified coding issuing interface or an appliance unified coding issuing interface which is preset in an e-CQS metering strong detection platform; operating a unified coding engine preset in the e-CQS metering strong detection platform, so that the unified coding engine sequentially distributes coding segments corresponding to the code acquisition requests to the at least one local office self-construction system according to the sequence of the received code acquisition requests, and transmits the coding segments to the corresponding local office self-construction system through the preset data interface; the unified encoding engine comprises a certificate unified encoding engine or an appliance unified encoding engine; the appliance code acquisition request, the appliance unified coding engine and the appliance unified code issuing interface correspond to each other; the certificate code acquisition request, the certificate unified coding engine and the certificate unified code issuing interface correspond to each other.

Further, the code issuing module is further configured to:

Further, the result receiving module 13 is further configured to:

Further, still include:

and the verification capability acquisition module is used for acquiring updated verification capability data uploaded by at least one local bureau self-constructed system through a mechanism verification capability reporting interface preset in the e-CQS metering strong inspection platform.

Further, still include:

the verification expiration data processing module is used for acquiring verification period expiration data acquisition requests generated by at least one local bureau self-built system by calling verification period reminders preset in the e-CQS metering strong inspection platform and issuing interfaces; acquiring verification period expiration data corresponding to the local bureau self-built system; and issuing the verification period expiration data to the corresponding local office self-built system through the verification period reminding issuing interface.

It should be noted that, for the working process of each module in this embodiment, please refer to the corresponding description in the above embodiments, which is not described herein again.

Optionally, on the basis of the above embodiment of the cooperative processing method for metering strong inspection service applied to the local office self-establishment system, another embodiment of the present invention provides a cooperative processing apparatus for metering strong inspection service, which is applied to the local office self-establishment system, and with reference to fig. 8, the cooperative processing apparatus for metering strong inspection service includes:

the task processing module 11 is configured to obtain a verification processing request on an e-CQS strong metrology inspection platform, run a task assignment engine preset in the e-CQS strong metrology inspection platform, so that the task assignment engine responds to the verification processing request, generate a verification task according to the verification processing request, determine a local office self-established system for processing the verification task, and after the local office self-established system is the local office self-established system, receive the verification task sent by the e-CQS strong metrology inspection platform through a verification task issuing interface preset in the e-CQS strong metrology inspection platform, and process the verification task to obtain a verification result;

and the result uploading module 12 is used for calling a verification result reporting interface preset in the e-CQS metering strong inspection platform to upload the verification result to the e-CQS metering strong inspection platform.

Further, still include:

the code acquisition module is used for processing the verification task and sending a code acquisition request to the e-CQS metering strong inspection platform by calling a preset data interface before obtaining a verification result; the code acquisition request comprises an appliance code acquisition request or a certificate code acquisition request; the preset data interface comprises a certificate unified coding issuing interface or an appliance unified coding issuing interface which is preset in an e-CQS metering strong detection platform; acquiring a code segment which is determined by a unified code engine in the e-CQS metering strong detection platform, corresponds to the code acquisition request and is issued through the preset data interface; the unified encoding engine comprises a certificate unified encoding engine or an appliance unified encoding engine; the appliance code acquisition request, the appliance unified coding engine and the appliance unified code issuing interface correspond to each other; the certificate code acquisition request, the certificate unified coding engine and the certificate unified code issuing interface correspond to each other.

The task processing module 11 is configured to process the verification task, and when a verification result is obtained, specifically configured to:

processing the verification task to obtain a verification initial result; under the condition that the verification initial result is qualified, selecting a target code from the code segments according to a preset code segment selection rule; determining a verification result, the verification result comprising the target code and the verification initial result.

Further, the code obtaining module is further configured to run the unified coding engine on the e-CQS metering strong inspection platform, so that the unified coding engine obtains the remaining number of codes of the local office self-construction system determined according to the verification number in the verification result, and under the condition that the remaining number of codes is less than a preset remaining threshold value, after distributing a target number of target code segments to the local office self-construction system, obtains a target code segment issued by the e-CQS metering strong inspection platform through the preset data interface; and the preset residual threshold and the target coding segment are determined by the coding segment distributed to the local office self-construction system of the target.

Further, still include:

and the verification progress module is used for generating verification progress data in the process of processing the verification task to obtain a verification result, calling a verification receipt reporting interface preset in the e-CQS metering strong inspection platform and uploading the verification progress data to the e-CQS metering strong inspection platform.

Further, still include:

and the verification capability uploading module is used for acquiring updated verification capability data of the local bureau self-built system, and uploading the verification capability data to the e-CQS metering strong inspection platform by calling a technical mechanism verification capability reporting interface preset in the e-CQS metering strong inspection platform.

Further, still include:

the verification period expiration data acquisition module is used for calling a verification period reminding issuing interface preset in the e-CQS metering strong inspection platform to generate a verification period expiration data acquisition request, and the verification period expiration data acquisition request is used for enabling the e-CQS metering strong inspection platform to determine verification period expiration data corresponding to the local bureau self-built system; and after the e-CQS metering strong inspection platform acquires the verification period expiration data corresponding to the local bureau self-established system, acquiring the verification period expiration data issued by an issuing interface through the verification period reminding of the e-CQS metering strong inspection platform.

Optionally, on the basis of the embodiment of the cooperative processing method and apparatus for the metering strong inspection service, another embodiment of the present invention provides a cooperative processing system for the metering strong inspection service, including an e-CQS metering strong inspection platform and a plurality of local bureau self-established systems; the e-CQS metering strong detection platform is used for executing the cooperative processing method of the metering strong detection service applied to the e-CQS metering strong detection platform; the local office self-establishment system is used for executing the cooperative processing method of the metering strong detection service applied to the local office self-establishment system.

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

1. A cooperative processing method for metering strong detection service is characterized in that the cooperative processing method is applied to an e-CQS metering strong detection platform, and comprises the following steps:

acquiring a verification processing request;

2. The co-processing method according to claim 1, wherein determining a target local office self-built system for processing the certification task comprises:

3. The co-processing method according to claim 1, further comprising, before the obtaining the certification process request:

4. The cooperative processing method according to claim 3, further comprising:

5. The cooperative processing method according to claim 1, wherein after issuing the verification task to the target local office self-built system through a verification task issuing interface preset in the e-CQS metrology strong inspection platform, the method further comprises:

6. The cooperative processing method according to claim 1, further comprising:

7. The cooperative processing method according to claim 1, further comprising:

8. A cooperative processing method for metering strong detection service is characterized in that the cooperative processing method is applied to a local office self-built system, and comprises the following steps:

9. The method of claim 8, wherein processing the verification task to obtain the verification result further comprises:

10. The co-processing method according to claim 9, wherein processing the verification task to obtain a verification result comprises:

processing the verification task to obtain a verification initial result;

11. The cooperative processing method according to claim 9, wherein after invoking a verification result reporting interface preset in the e-CQS metrology inspection platform to upload the verification result to the e-CQS metrology inspection platform, the method further comprises:

12. The cooperative processing method according to claim 8, wherein in processing the verification task to obtain a verification result, the method further comprises:

13. The cooperative processing method according to claim 8, further comprising:

14. The cooperative processing method according to claim 8, further comprising:

15. The utility model provides a measurement is examined cooperative processing device of business by force which characterized in that, is applied to e-CQS measurement and is examined platform by force, the measurement is examined cooperative processing device of business by force including:

16. A cooperative processing device for metering forced inspection service is characterized in that the cooperative processing device is applied to a local office self-built system, and comprises:

17. A measurement forced inspection service cooperative processing system is characterized by comprising an e-CQS measurement forced inspection platform and a plurality of local bureau self-built systems; the e-CQS metering strong detection platform is used for executing the cooperative processing method of the metering strong detection service of any one of claims 1 to 7; the local bureau self-construction system is used for executing the cooperative processing method of the metering intensity inspection service according to any one of claims 8-14.