CN112181786B - Configuration method, device and equipment for inspection application - Google Patents

Abstract

The embodiment of the invention provides a configuration method, a device and equipment for routing inspection application, in the scheme, a data model and a routing inspection item of a routing inspection object in a routing inspection application packet, a routing inspection item association routing inspection method and a routing inspection conclusion template can be configured according to actual requirements, the configured routing inspection application packet can be adapted to routing inspection schemes with various requirements in various industries, the universality of the routing inspection schemes is improved, different routing inspection software does not need to be developed respectively according to different industries or different routing inspection requirements, and the cost is reduced.

Description

Configuration method, device and equipment for inspection application

Technical Field

The invention relates to the technical field of inspection, in particular to a configuration method, a device and equipment for inspection application.

Background

Inspection, i.e., circuit inspection, is required in various industries. For example, the inspection of electrical equipment refers to the inspection of voltage, temperature, sound, vibration and other data of electrical equipment and the timely understanding of the operation of electrical equipment. And for example, community property inspection refers to the inspection of public facilities and landscaping in a community, and whether fire control violation and decoration violation exist or not, so that potential safety hazards are eliminated, and the living level of community residents is improved. For another example, the inspection in the petroleum refining industry refers to the inspection of the operation of equipment such as production devices, storage devices, petrochemical pipelines and the like, and the abnormal conditions are discovered in time.

At present, different inspection software is required to be used for different inspection requirements, for example, different inspection software is required to be respectively used for the inspection of the electrical equipment, the inspection of community property and the inspection of petroleum refining industry. Therefore, different routing inspection software needs to be developed respectively according to different industries or different routing inspection requirements, and the cost is high. Or, the inspection scheme has poor universality, and an inspection scheme with strong universality needs to be provided.

Disclosure of Invention

The embodiment of the invention aims to provide a configuration method, a device and equipment of routing inspection application, which are suitable for different routing inspection requirements and improve the universality of routing inspection schemes.

In order to achieve the above object, an embodiment of the present invention provides a configuration method for polling applications, including:

acquiring a data model and a detection point model of a routing inspection object;

determining a routing inspection method associated with the routing inspection object, wherein the routing inspection method comprises an associated detection point model, an associated event type and a plug-in package corresponding to the associated detection point model and the associated event type;

selecting a target type data model from the data models of the inspection objects;

determining an inspection item corresponding to the target type, and an associated inspection method and an inspection conclusion template of the inspection item; the related inspection method of the inspection item is determined from the inspection methods related to the inspection object;

and assembling the data model of the target type, the routing inspection item corresponding to the target type, the associated routing inspection method of the routing inspection item and the routing inspection conclusion template into a routing inspection application packet.

Optionally, the determining the routing inspection method associated with the routing inspection object includes:

determining an execution mode of the inspection task, wherein the execution mode comprises any one or more of the following modes: automatic inspection, manual on-line inspection and manual off-line inspection;

and determining the routing inspection method associated with the routing inspection object based on the execution mode.

Optionally, the determining the patrol inspection item corresponding to the target type, and the associated patrol inspection method and patrol inspection conclusion template of the patrol inspection item includes:

determining a routing inspection item level corresponding to the target type;

and configuring the patrol items of each level, and the associated patrol method and patrol conclusion template of the patrol item of the last level.

Optionally, after configuring the inspection conclusion template of the inspection item of the last hierarchy, the method further includes:

and determining the routing inspection flow executed under the condition that the routing inspection conclusion template is the abnormal template.

Optionally, after selecting the data model of the target type from the data models of the inspection objects, the method further includes:

determining a routing inspection process corresponding to the data model of the target type;

the method for assembling the data model of the target type, the routing inspection item corresponding to the target type, the associated routing inspection method of the routing inspection item and the routing inspection conclusion template into the routing inspection application packet comprises the following steps:

and assembling the data model of the target type, the inspection item corresponding to the target type, the associated inspection method and inspection conclusion template of the inspection item, and the inspection process into an inspection application packet.

In order to achieve the above object, an embodiment of the present invention further provides another polling application configuration method, including:

acquiring a patrol application package, wherein the patrol application package comprises: the method comprises the following steps that a data model of a target type inspection object, inspection items corresponding to the data model, and an associated inspection method and an inspection conclusion template of the inspection items are obtained; the associated inspection method comprises the following steps: the method comprises the steps of obtaining a correlation detection point model, a correlation event type and a plug-in package corresponding to the correlation detection point model and the correlation event type of the data model;

acquiring content data of an inspection object, content data of an inspection item and content data of a detection point;

in a configuration interface, performing associated display on the content data of the inspection object and the data model, performing associated display on the content data of the inspection item and the inspection item, and performing associated display on the content data of the detection point and the associated detection point model of the inspection item;

configuring a routing inspection plan based on an operation instruction of a user on the configuration interface;

acquiring polling event information, wherein the polling event information is obtained by a detection point based on the polling plan;

analyzing the inspection event information by executing the plug-in the plug-in package, and obtaining an inspection conclusion of the inspection plan based on the associated event type and the inspection conclusion template.

Optionally, after the obtaining of the inspection application package, the method further includes:

storing the data model, the patrol items corresponding to the data model, the associated detection point model, the associated event type, the associated detection point model and the patrol conclusion template which are included in the patrol application package to a preset position;

and loading the plug-in package to a preset execution directory.

In order to achieve the above object, an embodiment of the present invention further provides a configuration device for routing inspection application, including:

the first acquisition module is used for acquiring a data model of the inspection object and a detection point model;

the inspection method comprises a correlation detection point model, a correlation event type and a plug-in package corresponding to the correlation detection point model and the correlation event type;

the selection module is used for selecting a data model of a target type from the data models of the inspection objects;

the second determining module is used for determining the routing inspection item corresponding to the target type, and the associated routing inspection method and routing inspection conclusion template of the routing inspection item;

and the assembling module is used for assembling the data model of the target type, the routing inspection item corresponding to the target type, the associated routing inspection method of the routing inspection item and the routing inspection conclusion template into a routing inspection application package.

In order to achieve the above object, an embodiment of the present invention further provides another configuration device for routing inspection application, including:

the second acquisition module is used for acquiring the patrol application package, and the patrol application package comprises: the method comprises the steps that a data model of a routing inspection object of a target type, routing inspection items corresponding to the data model, and routing inspection item association routing inspection methods and routing inspection conclusion templates are obtained; the associated inspection method comprises the following steps: the data model comprises a correlation detection point model, a correlation event type and a plug-in package corresponding to the correlation detection point model and the correlation event type;

the third acquisition module is used for acquiring the content data of the inspection object, the content data of the inspection item and the content data of the detection point;

the display module is used for performing associated display on the content data of the inspection object and the data model, performing associated display on the content data of the inspection item and the inspection item, and performing associated display on the content data of the detection point and the associated detection point model of the inspection item in a configuration interface;

the configuration module is used for configuring a routing inspection plan based on an operation instruction of a user on the configuration interface;

the fourth acquisition module is used for acquiring polling event information, wherein the polling event information is obtained by the detection points based on the polling plan;

and the analysis module is used for analyzing the inspection event information by executing the plug-in the plug-in package and obtaining the inspection conclusion of the inspection plan based on the associated event type and the inspection conclusion template.

In order to achieve the above object, an embodiment of the present invention further provides an electronic device, including a processor and a memory;

a memory for storing a computer program;

and the processor is used for realizing any configuration method of the inspection application when executing the program stored in the memory.

By applying the embodiment of the invention, the data model and the routing inspection item of the routing inspection object in the routing inspection application packet, the routing inspection item association routing inspection method and the routing inspection conclusion template can be configured according to actual requirements, and the configured routing inspection application packet can be adapted to routing inspection schemes of various requirements of various industries, so that the universality of the routing inspection schemes is improved, different routing inspection software does not need to be developed respectively according to different industries or different routing inspection requirements, and the cost is reduced.

Of course, not all of the advantages described above need to be achieved at the same time in the practice of any one product or method of the invention.

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 some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a first flowchart of a configuration method of an inspection application according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a configuration interface according to an embodiment of the present invention;

fig. 3 is a second flowchart of the configuration method for the inspection application according to the embodiment of the present invention;

fig. 4 is a schematic structural diagram of a configuration apparatus for inspection application according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another configuration device for inspection applications according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an electronic device 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 order to achieve the above object, embodiments of the present invention provide a configuration method, an apparatus, and a device for routing inspection application, where the method and the apparatus may be applied to various electronic devices, and are not limited specifically. First, the configuration method of the polling application will be described in detail.

Fig. 1 is a first flowchart of a configuration method for an inspection application according to an embodiment of the present invention, where the first flowchart includes:

s101: and acquiring a data model and a detection point model of the inspection object.

For example, the configuration of the inspection application may be performed in an inspection engine, which may be understood as a base for configuring the inspection application, or as a set of open frameworks. The routing inspection engine provides a series of configurable and extensible capabilities or interfaces to support a visual configuration interface. By configuring the inspection application in the inspection engine, various inspection applications which are suitable for different requirements of different industries can be obtained.

The inspection objects of different industries and different inspection services are different. For example, in the electrical equipment inspection business, the inspection object can be electrical equipment, and in the community property inspection business, the inspection object can be a community needing inspection. Various element fields defined for the inspection object may be included in the data model of the inspection object, for example, if the inspection object is an electrical device, the data model of the inspection object may include: for example, if the inspection object is a community, the data model of the inspection object may include: community names, cell locations, cell property managers, etc., to name but a few.

The inspection engine in the above content can provide configuration of data models of inspection objects of different industries and different inspection services, can meet inspection requirements of different industries and different scenes, and supports custom expansion.

The detection point can be understood as a person or a data acquisition device that detects the inspection object. For example, in some automatic inspection scenes, the detection point may be a device for acquiring data for an inspection task, such as an image acquisition device, a temperature sensor, a pressure sensor, and the like. As another example, in some manual inspection scenarios, the inspection point may include an inspector or an inspection organization.

The detection point model may include various element fields defined for the detection point, such as the type of the detection point, an IP (Internet Protocol) address of the detection point, an identifier of a device detected by the detection point, an identifier of an area to which the detection point belongs, a name or a job number of a patrol inspector, an identifier of a patrol organization, and the like, which are not listed one by one.

Various element fields are only defined in the data model and the detection point model of the routing inspection object, but the specific contents of the element fields are null. And when the user configures a specific inspection plan and an inspection task, refilling corresponding element fields.

For example, in one case, various data models and inspection point models may be managed by a data management component, various data models and inspection point models may be pulled by the data management component, and a data model of a patrol object to be targeted and an inspection point model that may be related to the patrol object may be selected from the pulled data models and inspection point models in S101.

S102: and determining a routing inspection method associated with the routing inspection object, wherein the routing inspection method comprises an associated detection point model, an associated event type and a plug-in package corresponding to the associated detection point model and the associated event type.

The correlation detection point model can be understood as a model of a detection point to be used for inspecting an inspection object. For example, if the inspection object is an electrical device, the correlated detection point model may include a model of a temperature sensor, a model of a pressure sensor, and so on. For another example, if the inspection object is a community, the associated detection point model may include a model of an image capture device, a model of a smoke alarm, and so on, to name but not a few.

The associated event type may be understood as: the types of events that may occur during the process of performing inspection on the inspection object, for example, the types of events that may occur during the process of performing inspection on the electrical device include: temperature above a set point, pressure above a set point, etc., and further for example, the types of events that may occur during a patrol of a community include: staff is not wearing work clothes, staff is not on duty, smoking in smoking areas is forbidden, and the like, and specific event types are not listed.

A backend algorithm plug-in that executes logic algorithms for the associated detection point model and associated event type may be included in the plug-in package, or a frontend interface plug-in for frontend interface presentation may also be included, or various configuration content text may also be included.

For example, if the inspection object is an electrical device, the inspection method for the electrical device may include: the system comprises a detection point model for detecting the electrical equipment, a related event type, and a plug-in package corresponding to the detection point model and the related event type, wherein the related event type comprises an alarm when the temperature reaches a preset threshold value, an alarm when the pressure reaches a preset threshold value and the like, and the plug-in package can comprise a front-end program file, a back-end program file and various configuration content texts.

In one case, the plug-in package may further include an internal attribute field mapping relationship between the source data and the target data. The source data may be AI (Artificial Intelligence) data, such as data acquired by a data acquisition device, or data obtained by performing identification analysis on data acquired by the data acquisition device. The target data may be data obtained by normalizing the source data. For example, if the source data is an image analysis result: if the house guard does not wear the work clothes according to the regulations, the work clothes can be standardized to 001, and 001 is the target data.

In one embodiment, S102 may include: determining an execution mode of the inspection task, wherein the execution mode comprises any one or more of the following modes: automatic inspection, manual on-line inspection and manual off-line inspection; and determining the routing inspection method associated with the routing inspection object based on the execution mode.

Automatic inspection can be understood as: and automatically calling the detection points by the electronic equipment or the inspection software to acquire the detection data acquired by the detection points, and automatically analyzing the detection data to obtain an inspection result. The manual online inspection can be understood as follows: the inspection personnel interact with the electronic equipment or the inspection software to call the detection points to acquire the detection data collected by the detection points, and the inspection personnel analyze the detection data to obtain an inspection result. The inspection under the artificial line can be understood as follows: the patrol inspector manually goes to the site for patrol and records patrol data and patrol results.

In this embodiment, the inspection methods corresponding to different execution modes of the inspection task are different. For example, the associated detection point model in the inspection method corresponding to the automatic inspection and the manual online inspection may include a model of a sensor or other data acquisition equipment, and the associated detection point model in the inspection method corresponding to the manual offline inspection may include a model of an inspector, which may include a name, a work number, a contact manner, and the like of the inspector, without limitation. For another example, the front-end interface and the back-end algorithm corresponding to the three different execution modes are different, and therefore, the plug-in packages corresponding to the three different execution modes are different.

S103: and selecting a target type data model from the data models of the routing inspection objects.

For the same inspection object, it may include multiple types of data models, such as a general data model, or a model built for a portion of the inspection object, and so on. Taking the inspection object as the electrical device as an example, the data model of the electrical device may include a general data model, a data model of a transformer in the electrical device, a data model of a knife switch in the electrical device, and the like, which are not listed. The patrol application packages of the type can be respectively established for each type.

S104: and determining the inspection item corresponding to the target type, and the associated inspection method and inspection conclusion template of the inspection item. And determining the routing inspection method associated with the routing inspection item from the routing inspection methods associated with the routing inspection objects.

In S102, the inspection method associated with the inspection object is determined, and in S104, a part or all of the inspection methods associated with the inspection object may be selected as the associated inspection method of the inspection item.

Taking the inspection object as an electrical device as an example, the inspection item under the inspection object may include: each item of data, such as voltage, temperature, sound, vibration, etc. of a certain component of the electrical equipment, can be understood as an inspection item. Taking the inspection object as the community as an example, the inspection items under the inspection object may include: in the conditions of public facilities, public security posts and the like in the community, each item of data can be understood as an inspection item. The polling items are not listed one by one.

There may be a hierarchical relationship between routing inspection items, and in one embodiment, S104 may include: determining a routing inspection item level corresponding to the target type; and configuring the routing inspection item of each level, and the associated routing inspection method and routing inspection conclusion template of the routing inspection item of the last level.

Referring to FIG. 2, FIG. 2 shows the hierarchical relationship between patrol items: the assumption is that the object of patrolling and examining is the community, and the item of patrolling and examining under this object of patrolling and examining includes sentry service, these two items of patrolling and examining of sentry attendance under this item of patrolling and examining of sentry service, this item of patrolling and examining of sentry service is including dress, smoking, service attitude, and this item of patrolling and examining of sentry attendance is including this item of patrolling and examining of the sentry condition under this item of patrolling and examining of sentry attendance.

Fig. 2 also shows a patrol inspection conclusion template of the patrol inspection item at the last level, and if the patrol inspection conclusion template of the patrol inspection item is worn, the patrol inspection conclusion template comprises: the work clothes are not worn by the gate guard according to the regulations, and the patrol inspection conclusion template of the smoke exhaust patrol inspection item comprises: the regional smoking of sentry on duty, the inspection conclusion template of service attitude inspection item includes: the gate post reception attitude does not meet the specification.

In S104, the names of the inspection item levels may be configured, and which inspection point model is associated with which level is selected. For the patrol inspection item of the last hierarchy, the patrol inspection method associated with the patrol inspection item is configured, and for example, the name of the patrol inspection method associated with the patrol inspection item can be selected from the patrol inspection method name list. The inspection method comprises the associated event type, and the relationship between the inspection conclusion template and the associated event type can be configured. For example, the patrol conclusion template may include: the template corresponding to the normal conclusion (which may be referred to as a normal template), the template corresponding to the abnormal conclusion (which may be referred to as an abnormal template), the template corresponding to the early warning conclusion (which may be referred to as an early warning template), and the like, which event type corresponds to the normal template, which event type corresponds to the abnormal template, which event type corresponds to the early warning template, and the like may be configured.

In one embodiment, after the inspection conclusion template of the inspection item of the last hierarchy is configured, the inspection flow executed under the condition that the inspection conclusion template is an abnormal template can be determined.

For example, a complete inspection flow may include: inspection, rechecking, rectification and auditing. Under the different demands of patrolling and examining of different trades, can cut this complete flow of patrolling and examining, perhaps say that can adjust this flow according to actual conditions. For example, the flow of the electrical equipment inspection can include: the inspection-rechecking process, and the community property inspection process can comprise the following steps: and (4) inspection, rectification, audit and the like, wherein the specific inspection processes are not listed one by one.

As described above, the patrol conclusion template may include a normal template, an abnormal template, and the like. In some cases, if the inspection conclusion is abnormal, subsequent processes such as rechecking, reforming and the like need to be continuously performed, and in these cases, inspection processes such as reforming, reforming and the like which need to be continuously executed can be configured for the abnormal template.

S105: and assembling the data model of the target type, the routing inspection item corresponding to the target type, the associated routing inspection method of the routing inspection item and the routing inspection conclusion template into a routing inspection application packet.

In an embodiment, after S103, a routing inspection process corresponding to the data model of the target type may be determined; in such an embodiment, S105 may include: and assembling the data model of the target type, the inspection item corresponding to the target type, the associated inspection method and inspection conclusion template of the inspection item, and the inspection process into an inspection application packet.

As described above, the complete inspection process may include: inspection, rechecking, rectification and auditing. Under the different demands of patrolling and examining of different trades, can cut this complete flow of patrolling and examining. Or, in some cases, the routing inspection process can be refined, for example, the routing inspection object is taken as a community, the routing inspection process can be refined to firstly routing inspection of the sentry box and then routing inspection of the fire fighting channel, and the specific routing inspection process is not limited.

In one embodiment, the routing inspection application package may further include a selection policy for routing inspection personnel, for example, whether to configure according to personnel or according to roles is selected, and whether to subdivide routing inspection personnel in different areas may be selected when configuring according to roles.

By way of example, in terms of human configuration: and the personal account of each patrol inspection personnel is established, so that the patrol inspection task can be specifically carried out to individuals when being distributed. The configuration according to roles can be understood as: a unified inspector account is established without distinguishing which inspector is specific, and different inspectors can use the account. When the inspection personnel in different areas are subdivided according to role configuration, the method can be understood as follows: different inspector accounts are established for different inspection areas, and each inspector who inspects the same area can use the same account.

With the embodiment shown in fig. 1, the inspection application package is assembled. The inspection application package can be subsequently led into inspection software, an inspection plan can be configured in the inspection software, and an inspection task and the like can be executed. The inspection software can be platform software, and the specific software form is not limited. In one case, the inspection engine and the inspection software can be integrated, so that the inspection software can directly acquire the inspection application package. Or, in another case, the inspection engine and the inspection software may be set independently, so that the inspection software may download the inspection application package and then import the inspection application package to the platform.

By applying the embodiment of the invention, the data model of the inspection object, the inspection item association inspection method and the inspection conclusion template in the inspection application packet can be configured according to actual requirements, and the inspection application packet obtained by configuration can be adapted to inspection schemes of various requirements of various industries, so that the universality of the inspection schemes is improved, different inspection software does not need to be developed respectively according to different industries or different inspection requirements, and the cost is reduced.

The following introduces the inspection software importing inspection application package:

fig. 3 is a second flowchart of the configuration method for the inspection application according to the embodiment of the present invention, where the second flowchart includes:

s301: acquiring a patrol application package, wherein the patrol application package comprises: the method comprises the following steps that a data model of a target type inspection object, inspection items corresponding to the data model, and an associated inspection method and an inspection conclusion template of the inspection items are obtained; the associated inspection method comprises the following steps: the data model comprises a correlation detection point model, a correlation event type and a plug-in package corresponding to the correlation detection point model and the correlation event type.

The inspection application package may be an inspection application package assembled according to the embodiment shown in fig. 1.

In one embodiment, after S301, the data model, the patrol item corresponding to the data model, the associated detection point model, the associated event type, the associated detection point model, and the patrol conclusion template included in the patrol application package may be stored in a preset location; and loading the plug-in package to a preset execution directory.

For example, the inspection software can analyze the inspection application package, store the basic data in the inspection application package into the database, and load the plug-in the plug-in package into the preset execution directory, so that the basic data in the database can be called and displayed in the configuration interface of the inspection software, the basic data can be used as the configuration items in the configuration interface, and the inspection software can directly call the plug-in to execute corresponding steps. As described above, a back-end algorithm plug-in that executes a logic algorithm for the associated detection point model and associated event type may be included in the plug-in package, or a front-end interface plug-in for a front-end interface presentation may also be included.

S302: and acquiring the content data of the inspection object, the content data of the inspection item and the content data of the detection point.

As described in the embodiment of fig. 1, only various element fields are defined in the data model and the inspection point model of the patrol object, but the specific contents of the element fields are empty. The content data acquired in S302 is specific content that can be filled in the element field, and for example, if the inspection object is an electrical device, the content data of the inspection object may include: device number, device vendor, device type, etc. the specific contents of the various element fields. Assuming that 5 disconnecting switches in the electrical device need to be inspected, the content data of the inspection object may include specific information such as device numbers, device manufacturers, device types, and the like of the 5 disconnecting switches. Assuming that 3 disconnecting switches and 2 transformers in the electrical device need to be inspected, the content data of the inspection object may include specific information such as device numbers, device manufacturers, and device types of the 3 disconnecting switches, and specific information such as device numbers, device manufacturers, and device types of the 2 transformers.

For another example, if the patrol object is a community, the content data of the patrol object may include: the specific contents of various element fields such as community name, cell location, cell property manager, etc. are not listed one by one. The content data of the detection point may include: the specific contents of various element fields such as the type of the detection point, the IP address of the detection point, the equipment identifier detected by the detection point, the area identifier to which the detection point belongs, the name or work number of the patrol personnel, the identifier of the patrol organization and the like are not listed one by one.

In the embodiment of fig. 1, a configuration patrol item is introduced, the configuration process may configure the hierarchy, name, associated patrol method, patrol conclusion template, and the like of the patrol item, and the content data of the patrol item in S302 may include content that needs to be patrolled for the patrol item, for example, the content data corresponding to the patrol item, which is the service attitude, may include: whether the attitude of the house guard personnel reception community owner meets the preset specification or not, or whether the attitude of the house guard personnel reception foreign personnel meets the preset specification or not, and the like are not listed one by one.

S303: in a configuration interface, the content data of the inspection object and the data model are displayed in a correlation mode, the content data of the inspection item and the inspection item are displayed in a correlation mode, and the content data of the detection points and the correlation detection point model of the inspection item are displayed in a correlation mode.

The association presentation here may also be understood as filling the content data acquired in S302 into various models of the patrol application package. For example, a button corresponding to the inspection object can be displayed in the configuration interface, the user clicks the button, and the displayed pull-down menu comprises content data of the inspection object; a button corresponding to the inspection item can be displayed in the configuration interface, a user clicks the button, and the displayed pull-down menu comprises content data of the inspection item; and a button corresponding to the detection point can be displayed in the configuration interface, and a user clicks the button, wherein the displayed pull-down menu comprises content data of the detection point.

In one case, the configuration interface may include a general interface and a specific interface, the general interface may call basic data in the database to display corresponding configuration item content, the specific interface may control the display of the interface based on the front-end interface plug-in, the specific interface may include a patrol configuration interface, a patrol execution interface, and the like, and a specific interface layout is not limited.

S304: and configuring the inspection plan based on the operation instruction of the user on the configuration interface.

As described above, various basic data can be displayed in the configuration interface as configuration items, and a user can operate the configuration items in the configuration interface according to actual needs to configure the inspection plan. The inspection plan may include: and in which time interval, what execution mode is adopted, which detection points are applied, which polling items of which polling object are polled, and the like.

S305: and acquiring polling event information, wherein the polling event information is obtained by the detection points based on the polling plan.

The patrol event information can be similar event information such as that the gate guard does not wear work clothes, the gate guard smokes smoke, the temperature is 56 ℃, and the pressure is 1 kilopascal.

After the user configures the inspection plan, the user can call corresponding detection points in a corresponding execution mode, inspection is performed in a corresponding time period, and the detection points can feed inspection data, such as the AI data, including data acquired by the data acquisition equipment or including data acquired by identifying and analyzing the data acquired by the data acquisition equipment, back to the inspection software. In some cases, the polling event information may be generated based on the polling data, or in other cases, the polling data may be directly used as the polling event information.

As described above, the plugin packet may include an internal attribute field mapping relationship between source data and target data, in one case, the inspection data fed back by the detection point may be the source data, the backend algorithm plugin may convert the source data into the target data according to the internal attribute field mapping relationship, and obtain the inspection event information based on the target data.

S306: and analyzing the inspection event information by executing the plug-in the plug-in package, and obtaining an inspection conclusion of the inspection plan based on the associated event type and the inspection conclusion template.

As described above, the plug-in package may include a backend algorithm plug-in that executes a logic algorithm with respect to the associated detection point model and the associated event type, and may invoke the backend algorithm plug-in to analyze the patrol event information, and obtain a patrol conclusion of the patrol plan based on the associated event type and the patrol conclusion template. In one case, the routing inspection conclusion may be displayed on a configuration interface.

For example, assuming that the patrol event information is 56 degrees in temperature and the associated event type is higher than 45 degrees in temperature, the patrol conclusion template includes: the template comprises a normal temperature template, an over-temperature template and an under-temperature template, wherein specific text contents in each template are not limited, for example, the specific text contents in the over-temperature template may be: if the temperature is too high, please take cooling measures in time. In this case, the backend algorithm plug-in is called to analyze the inspection event information, and based on the associated event type and the inspection conclusion template, the inspection conclusion obtained can be: if the temperature is too high, please take cooling measures in time.

By applying the embodiment shown in the figure 3 of the invention, the inspection device can be quickly assembled and configured into specific industry application according to the inspection requirements of various industries, so that the universality of the inspection scheme is improved. In addition, in the configuration scheme of the inspection means, a new inspection mode can be rapidly expanded in a plug-in mode.

In order to achieve the above object, an embodiment of the present invention further provides a configuration device for inspection application, as shown in fig. 4, including:

a first obtaining module 401, configured to obtain a data model of an inspection object and a detection point model;

a first determining module 402, configured to determine a routing inspection method associated with the routing inspection object, where the routing inspection method includes an associated detection point model, an associated event type, and a plug-in package corresponding to the associated detection point model and the associated event type;

a selecting module 403, configured to select a data model of a target type from the data models of the inspection objects;

a second determining module 404, configured to determine an inspection item corresponding to the target type, and an associated inspection method and an inspection conclusion template of the inspection item;

an assembling module 405, configured to assemble the data model of the target type, the inspection item corresponding to the target type, and the associated inspection method and inspection conclusion template of the inspection item into an inspection application package.

In an embodiment, the first determining module 402 is specifically configured to:

determining an execution mode of the inspection task, wherein the execution mode comprises any one or more of the following modes: automatic inspection, manual on-line inspection and manual off-line inspection;

and determining the routing inspection method associated with the routing inspection object based on the execution mode.

In an embodiment, the second determining module 404 is specifically configured to:

determining a routing inspection item level corresponding to the target type;

and configuring the routing inspection item of each level, and the associated routing inspection method and routing inspection conclusion template of the routing inspection item of the last level.

In one embodiment, the apparatus further comprises:

and a third determining module (not shown in the figure) configured to determine the polling procedure executed when the polling conclusion template is the abnormal template after the polling conclusion template of the polling item of the last level is configured.

In one embodiment, the apparatus further comprises:

a fourth determining module (not shown in the figure) for determining the routing inspection process corresponding to the data model of the target type;

the assembly module 405 is specifically configured to:

and assembling the data model of the target type, the inspection item corresponding to the target type, the associated inspection method and inspection conclusion template of the inspection item, and the inspection process into an inspection application packet.

By applying the embodiment of the invention, the data model and the routing inspection item of the routing inspection object in the routing inspection application packet, the routing inspection item association routing inspection method and the routing inspection conclusion template can be configured according to actual requirements, and the configured routing inspection application packet can be adapted to routing inspection schemes of various requirements of various industries, so that the universality of the routing inspection schemes is improved.

In order to achieve the above object, an embodiment of the present invention further provides another configuration device for inspection application, as shown in fig. 5, including:

a second obtaining module 501, configured to obtain an inspection application packet, where the inspection application packet includes: the method comprises the steps that a data model of a routing inspection object of a target type, routing inspection items corresponding to the data model, and routing inspection item association routing inspection methods and routing inspection conclusion templates are obtained; the associated inspection method comprises the following steps: the data model comprises a correlation detection point model, a correlation event type and a plug-in package corresponding to the correlation detection point model and the correlation event type;

a third obtaining module 502, configured to obtain content data of the inspection object, content data of the inspection item, and content data of the inspection point;

a display module 503, configured to perform associated display on the content data of the inspection object and the data model in a configuration interface, perform associated display on the content data of the inspection item and the inspection item, and perform associated display on the content data of the detection point and the associated detection point model of the inspection item;

the configuration module 504 is used for configuring the inspection plan based on the operation instruction of the user on the configuration interface;

a fourth obtaining module 505, configured to obtain inspection event information, where the inspection event information is obtained by using the inspection plan as a detection point;

and the analysis module 506 is used for analyzing the inspection event information by executing the plug-in the plug-in package, and obtaining an inspection conclusion of the inspection plan based on the associated event type and the inspection conclusion template.

In one embodiment, the apparatus further comprises: a store module and a load module (not shown), wherein,

the storage module is used for storing the data model, the routing inspection item corresponding to the data model, the associated detection point model, the associated event type, the associated detection point model and the routing inspection conclusion template which are included in the routing inspection application package to a preset position;

and the loading module is used for loading the plug-in package to a preset execution directory.

By applying the embodiment of the invention, the inspection device can be quickly assembled and configured into specific industry application according to the inspection requirements of various industries, and the universality of the inspection scheme is improved. In addition, in the configuration scheme of the inspection means, a new inspection mode can be quickly expanded in a plug-in mode, different inspection software does not need to be developed according to different industries or different inspection requirements, and cost is reduced.

An embodiment of the present invention further provides an electronic device, as shown in fig. 6, including a processor 601 and a memory 602,

a memory 602 for storing a computer program;

the processor 601 is configured to implement any one of the above-described polling application configuration methods when executing the program stored in the memory 602.

The Memory mentioned in the above electronic device may include a Random Access Memory (RAM) or a Non-Volatile Memory (NVM), such as at least one disk Memory. Alternatively, the memory may be at least one memory device located remotely from the processor.

The Processor may be a general-purpose Processor, including a Central Processing Unit (CPU), a Network Processor (NP), and the like; but also Digital Signal Processors (DSPs), application Specific Integrated Circuits (ASICs), field Programmable Gate Arrays (FPGAs) or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components.

In still another embodiment of the present invention, a computer-readable storage medium is further provided, in which a computer program is stored, and the computer program, when executed by a processor, implements any one of the above-mentioned methods for configuring an inspection application.

In yet another embodiment of the present invention, there is also provided a computer program product containing instructions which, when run on a computer, cause the computer to perform any one of the above methods of configuration of inspection applications.

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, it may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with the embodiments of the invention to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable storage medium or transmitted from one computer readable storage medium to another, for example, from one website site, computer, server, or data center to another website site, computer, server, or data center via wired (e.g., coaxial cable, fiber optic, digital Subscriber Line (DSL)) or wireless (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that incorporates one or more of the available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., solid State Disk (SSD)), among others.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, apparatus embodiments, device embodiments, computer-readable storage medium embodiments, and computer program product embodiments are substantially similar to method embodiments and therefore are described with relative ease with reference to the partial description of the method embodiments.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. A configuration method of routing inspection application is characterized by comprising the following steps:

acquiring a data model and a detection point model of a routing inspection object;

determining a routing inspection method associated with the routing inspection object, wherein the routing inspection method comprises an associated detection point model, an associated event type and a plug-in package corresponding to the associated detection point model and the associated event type; the associated detection point model is a data model of a detection point selected from the detection point models and used for polling the polling object, and the associated event type is a type of an event which may occur in the polling process of the polling object;

selecting a data model of a target type to be inspected from the data models of the inspection objects;

determining routing inspection items corresponding to the target types, selecting routing inspection methods associated with the routing inspection items from the routing inspection methods as associated routing inspection methods, and determining routing inspection conclusion templates corresponding to the routing inspection items;

and assembling the data model of the target type, the routing inspection item corresponding to the target type, the associated routing inspection method and the routing inspection conclusion template into a routing inspection application package, wherein the plug-in package is used for supporting the operation of the routing inspection application package.

2. The method according to claim 1, wherein the determining the inspection method associated with the inspection object comprises:

determining an execution mode of the inspection task, wherein the execution mode comprises any one or more of the following modes: automatic inspection, manual on-line inspection and manual off-line inspection;

and determining the routing inspection method associated with the routing inspection object based on the execution mode.

3. The method according to claim 1, wherein the determining of the inspection items corresponding to the target types, selecting the inspection method associated with the inspection item from the inspection methods as the associated inspection method, and determining the inspection conclusion template corresponding to the inspection item comprises:

determining a routing inspection item level corresponding to the target type;

and configuring the routing inspection item of each level, and the associated routing inspection method and routing inspection conclusion template of the routing inspection item of the last level.

4. The method according to claim 3, after configuring the inspection conclusion template of the inspection item of the last hierarchy, further comprising:

and determining the routing inspection flow executed under the condition that the routing inspection conclusion template is the abnormal template.

5. The method according to claim 1, wherein after selecting the data model of the target type of the inspection required from the data models of the inspection objects, the method further comprises:

determining a routing inspection process corresponding to the data model of the target type;

the assembling the data model of the target type, the routing inspection item corresponding to the target type, the associated routing inspection method and the routing inspection conclusion template into a routing inspection application package comprises the following steps:

and assembling the data model of the target type, the routing inspection item corresponding to the target type, the associated routing inspection method, the routing inspection conclusion template and the routing inspection flow into a routing inspection application packet.

6. A configuration method of routing inspection application is characterized by comprising the following steps:

acquiring a patrol application package, wherein the patrol application package comprises: the method comprises the following steps that a data model of a routing inspection object of a target type to be routed, routing inspection items corresponding to the data model, an associated routing inspection method and routing inspection conclusion templates corresponding to the routing inspection items are obtained; the associated inspection method is an inspection method associated with the inspection item selected from inspection methods associated with the inspection object; the associated inspection method comprises the following steps: the method comprises the steps of obtaining a correlation detection point model, a correlation event type and a plug-in package corresponding to the correlation detection point model and the correlation event type of the data model; the correlation detection point model is a data model of a detection point selected from the detection point models and used for polling the polling object, and the correlation event type is a type of an event which possibly occurs in the polling process of the polling object; the plug-in package is used for supporting the operation of the inspection application package;

acquiring the content data of the inspection object, the content data of the inspection item and the content data of the detection point;

in a configuration interface, performing associated display on the content data of the inspection object and the data model, performing associated display on the content data of the inspection item and the inspection item, and performing associated display on the content data of the inspection points and the associated inspection point model of the inspection item;

configuring a routing inspection plan based on an operation instruction of a user on the configuration interface;

acquiring polling event information, wherein the polling event information is obtained by the detection points based on the polling plan;

analyzing the inspection event information by executing the plug-in the plug-in package, and obtaining an inspection conclusion of the inspection plan based on the associated event type and the inspection conclusion template.

7. The method of claim 6, wherein after obtaining the patrol application package, further comprising:

storing the data model, the routing inspection item corresponding to the data model, the associated detection point model, the associated event type, the associated detection point model and the routing inspection conclusion template which are included in the routing inspection application package to a preset position;

and loading the plug-in package to a preset execution directory.

8. A configuration device for routing inspection applications, comprising:

the first acquisition module is used for acquiring a data model of the inspection object and a detection point model;

the inspection method comprises a correlation detection point model, a correlation event type and a plug-in package corresponding to the correlation detection point model and the correlation event type; the associated detection point model is a data model of a detection point selected from the detection point models and used for polling the polling object, and the associated event type is a type of an event which may occur in the polling process of the polling object;

the selection module is used for selecting a data model of a target type to be inspected from the data models of the inspection objects;

the second determining module is used for determining the routing inspection items corresponding to the target types, selecting routing inspection methods associated with the routing inspection items from the routing inspection methods as associated routing inspection methods, and determining routing inspection conclusion templates corresponding to the routing inspection items;

and the assembling module is used for assembling the data model of the target type, the inspection item corresponding to the target type, the associated inspection method and the inspection conclusion template into an inspection application package, and the plug-in package is used for supporting the operation of the inspection application package.

9. A configuration device for routing inspection applications, comprising:

the second acquisition module is used for acquiring the patrol application package, wherein the patrol application package comprises: the method comprises the following steps that a data model of a polling object of a target type to be polled, polling items corresponding to the data model, an associated polling method and a polling conclusion template are obtained; the associated inspection method is an inspection method associated with the inspection item selected from inspection methods associated with the inspection object; the associated inspection method comprises the following steps: the method comprises the steps of obtaining a correlation detection point model, a correlation event type and a plug-in package corresponding to the correlation detection point model and the correlation event type of the data model; the associated detection point model is a data model of a detection point selected from the detection point models and used for polling the polling object, and the associated event type is a type of an event which may occur in the polling process of the polling object; the plug-in package is used for supporting the operation of the inspection application package;

the third acquisition module is used for acquiring the content data of the inspection object, the content data of the inspection item and the content data of the detection point;

the display module is used for performing associated display on the content data of the inspection object and the data model, performing associated display on the content data of the inspection item and the inspection item, and performing associated display on the content data of the detection point and the associated detection point model of the inspection item in a configuration interface;

the configuration module is used for configuring a patrol plan based on an operation instruction of a user on the configuration interface;

the fourth acquisition module is used for acquiring polling event information, wherein the polling event information is obtained by the detection points based on the polling plan;

and the analysis module is used for analyzing the inspection event information by executing the plug-in the plug-in package and obtaining the inspection conclusion of the inspection plan based on the associated event type and the inspection conclusion template.

10. An electronic device comprising a processor and a memory;

a memory for storing a computer program;

a processor for implementing the method steps of any one of claims 1 to 7 when executing a program stored in a memory.

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