CN115328442A

CN115328442A - Hazardous chemical substance enterprise safety risk management and control platform constructed based on low code platform

Info

Publication number: CN115328442A
Application number: CN202211250485.0A
Authority: CN
Inventors: 林明奇; 郭亮亮; 罗勇
Original assignee: Beijing Bangand Information Technology Co ltd
Current assignee: Beijing Bangand Information Technology Co ltd
Priority date: 2022-10-13
Filing date: 2022-10-13
Publication date: 2022-11-11
Anticipated expiration: 2042-10-13
Also published as: CN115328442B

Abstract

The invention relates to the technical field of data processing, in particular to a hazardous chemical enterprise safety risk management and control platform constructed based on a low-code platform. Which comprises a control terminal and a low code platform. According to the method, the data acquisition unit is used for acquiring the user application function, the data analysis unit is used for carrying out data analysis on the user application function according to the acquired information, judging the data content, identifying the content of each service module of the safety risk control platform of the hazardous chemical substance enterprise, decomposing a simple filling and working process page, helping each developer to quickly create new software by using a low-code platform, matching the created software by using a page matching unit, stringing a form and a view together to obtain a service module, carrying out secondary source code development on the created form by the developer according to the service logic requirement of each service module, quickly forming a service module which can be used by a user, and improving the building speed of the safety risk control platform of the hazardous chemical substance enterprise.

Description

Hazardous chemical enterprise safety risk management and control platform constructed based on low-code platform

Technical Field

The invention relates to the technical field of data processing, in particular to a hazardous chemical enterprise safety risk management and control platform constructed based on a low-code platform.

Background

The low code is a visual application development method, which delivers the application program with less code and faster speed, and automates the code which the programmer does not want to develop, and is called as low code;

with the gradual improvement of informatization requirements of hazardous chemical substance enterprises, based on requirements of relevant platform construction guidelines of emergency management departments, in order to realize effective management and control on the security risks of the hazardous chemical substance enterprises, the enterprises need to build a security risk management and control platform, but the security management processes of each hazardous chemical substance enterprise are different, a large amount of customized and developed contents exist in the platform construction process, and the platform construction period is short, so that a large amount of codes need to be compiled every time an application is built, the code repeatability is high, and one or more professional technicians are needed for developing one application; long project development period and high implementation cost.

Disclosure of Invention

The invention aims to provide a safety risk control platform for hazardous chemical enterprise based on a low-code platform, so as to solve the problems in the background technology.

In order to achieve the purpose, the safety risk management and control platform for the hazardous chemical substance enterprise constructed based on the low-code platform comprises a control terminal, wherein the control terminal is a main control end of a system, a user sends a control command, the control terminal comprises a data acquisition unit, the data acquisition unit is used for acquiring user application functions, the output end of the data acquisition unit is connected with a data analysis unit, the data analysis unit is used for carrying out data analysis on the user application functions and judging data contents, the output end of the data analysis unit is connected with a data storage unit, and the data storage unit is used for storing data corresponding to each user application function;

the control terminal is bidirectionally connected with a low-code platform, the low-code platform comprises a code conversion unit, and the code conversion unit is used for converting source codes of data corresponding to user application functions into codes which can be identified by a system;

the output end of the code conversion unit is connected with a software creation unit, and the software creation unit creates corresponding software according to the identified code;

the output end of the software creating unit is connected with a page matching unit, and the page matching unit matches the created software according to the user requirements to form a service module which can be used by the user;

the output end of the page matching unit is connected with a simulation unit, and the simulation unit simulates a service module running program according to the formed service module and judges whether the service module is normal or not.

As a further improvement of the technical scheme, the data acquisition unit comprises a monitoring item setting module, the monitoring item setting module is used for setting monitoring items required by the management and control targets, the output end of the monitoring item setting module is connected with a condition setting module, the condition setting module is used for setting storage conditions of the system management and control targets, the output end of the condition setting module is connected with a monitoring time setting module, the monitoring time setting module is used for setting management and control time and management and control interval time of the system management and control targets, the output end of the monitoring time setting module is connected with an attribute setting module, and the attribute setting module is used for setting attribute information of the system management and control targets.

As a further improvement of the technical solution, the output end of the attribute setting module is connected with a setting input module, the setting input module is used for extracting the setting information of the monitoring item setting module, the condition setting module, the monitoring time setting module and the attribute setting module, the output end of the setting input module is connected with a corresponding data configuration module, the corresponding data configuration module configures corresponding data according to the setting information and binds the configuration data with the setting information, and the input end of the corresponding data configuration module is connected with the output end of the data storage unit.

As a further improvement of the technical solution, the data analysis unit includes a data content identification module, an output end of the data content identification module is connected to a data classification module, the data classification module is configured to classify data corresponding to the user application function, and an output end of the data classification module is connected to a data content output module.

As a further improvement of the technical solution, the data storage unit includes a cloud database, the cloud database is used for storing complete data corresponding to the user application function stored in the data storage unit, and the cloud database runs and synchronously updates the stored content along with the data storage unit.

As a further improvement of the technical solution, the simulation unit includes a source code comparison module, the source code comparison module is configured to compare source codes corresponding to each software, and determine whether the source codes have problems of duplication, order confusion, code missing or increase, and the like, the output end of the simulation unit is connected to a source code check module, the source code check module is configured to check the source codes and corresponding software, and determine whether an abnormality occurs according to actual simulation operation, the output end of the source code check module is connected to an error code modification module, and the error code modification module is configured to modify an abnormal code.

As a further improvement of the technical solution, the error code modification module is bidirectionally connected with an identity judgment module, and the identity judgment module is used for determining a user for error code modification.

As a further improvement of the technical solution, the input end of the data acquisition unit is connected with a data modification unit, and the data modification unit is used for verifying the acquired user application function data, judging whether the data is abnormal, modifying the abnormal data, and updating the user application function data.

As a further improvement of the technical solution, an input end of the data modification unit is connected to an identity verification unit, and the identity verification unit is configured to determine an identity of a user who modifies the data.

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

1. in the hazardous chemical substance enterprise safety risk control platform constructed based on the low-code platform, the data acquisition unit is used for acquiring the user application function, the data analysis unit is used for carrying out data analysis on the user application function according to the acquired information, judging the data content, identifying the content of each service module of the hazardous chemical substance enterprise safety risk control platform, decomposing a simple filling and working process page, helping each developer to quickly create new software by using the low-code platform, matching and creating the created software by using the page matching unit, stringing a form and a view together to obtain one service module, carrying out secondary source code development on the created form by the developer according to the service logic requirement of each service module, quickly forming a service module which can be used by a user, and improving the building speed of the hazardous chemical substance enterprise safety risk control platform.

2. In the hazardous chemical substance enterprise safety risk control platform constructed based on the low code platform, the monitoring project setting module sets a control target to be monitored, for example, the hazardous chemical substance enterprise safety risk control platform comprises safety production information, law and regulation management, equipment and facility integrity, a double prevention system, operation permission management, intelligent inspection, personnel positioning management, contractor management, training management, major hazard source management, agile emergency management, performance assessment and other contents, a user can set a corresponding monitoring project according to monitoring requirements, the condition setting module sets storage conditions of the control target, the monitoring time setting module sets control time and control interval time of the control target, corresponding control time and control interval time are set according to different monitoring requirements, and the attribute setting module sets attribute information of the control target.

3. In the safety risk management and control platform for the hazardous chemical substance enterprises constructed based on the low-code platform, the storage content is updated by synchronously running the cloud database along with the data storage unit, the data storage content of the data storage unit is updated in time, the same storage data in the data storage unit is removed, and the data redundancy phenomenon is avoided.

4. In the hazardous chemical enterprise safety risk control platform constructed based on the low-code platform, a source code comparison module is used for comparing source codes corresponding to all software, judging whether the source codes have the problems of repetition, disordered sequence, code missing or increase and the like, identifying abnormal positions of the source codes, a source code checking module is used for checking the source codes and the corresponding software, judging whether the source codes are abnormal according to actual simulation operation, judging abnormal types, and modifying the abnormal codes through an error code modification module when the abnormal source codes occur.

Drawings

FIG. 1 is an overall flow diagram of the present invention;

FIG. 2 is a flow chart of a data acquisition unit of the present invention;

FIG. 3 is a flow chart of a data analysis unit of the present invention;

FIG. 4 is a flow chart of a data storage unit according to the present invention;

FIG. 5 is a flow chart of a simulation unit of the present invention;

fig. 6 is a schematic structural diagram of the present invention.

The various reference numbers in the figures mean:

10. a data acquisition unit; 110. a monitoring project setting module; 120. a condition setting module; 130. a monitoring time setting module; 140. an attribute setting module; 150. setting an input module; 160. a data configuration module;

20. a data analysis unit; 210. a data content identification module; 220. a data classification module; 230. a data content output module;

30. a data storage unit; 310. a cloud database;

40. a code conversion unit;

50. a software creation unit;

60. a page matching unit;

70. an analog unit; 710. a source code comparison module; 720. a source code checking module; 730. an error code modification module; 740. an identity judgment module;

80. a data modification unit;

90. and an identity authentication unit.

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.

Example 1

Referring to fig. 1 to 5, a hazardous chemical substance enterprise safety risk management and control platform constructed based on a low-code platform is provided, and includes a control terminal, where the control terminal is a main control terminal of a system, a user sends a control command, the control terminal includes a data acquisition unit 10, the data acquisition unit 10 is used for acquiring user application functions, an output end of the data acquisition unit 10 is connected to a data analysis unit 20, the data analysis unit 20 is used for performing data analysis on the user application functions and judging data content, an output end of the data analysis unit 20 is connected to a data storage unit 30, and the data storage unit 30 is used for storing data corresponding to each user application function;

the control terminal is bidirectionally connected with a low-code platform, the low-code platform comprises a code conversion unit 40, and the code conversion unit 40 is used for converting source codes of data corresponding to user application functions into codes which can be identified by a system;

the output end of the code conversion unit 40 is connected with a software creation unit 50, and the software creation unit 50 creates corresponding software according to the identified code;

the output end of the software creating unit 50 is connected with a page matching unit 60, and the page matching unit 60 matches the created software according to the user requirements to form a service module which can be used by the user;

the output end of the page matching unit 60 is connected to the simulation unit 70, and the simulation unit 70 simulates the running program of the service module according to the formed service module to determine whether the running program is normal.

When the system is used, a user sends a control command through a control terminal, the data acquisition unit 10 acquires user application functions, generates acquisition information, and transmits the acquisition information to the data analysis unit 20, the data analysis unit 20 performs data analysis on the user application functions according to the acquisition information, judges data content, generates a judgment result, transmits the judgment result to the data storage unit 30, stores data corresponding to each user application function through the data storage unit 30, in the software matching process, the code conversion unit 40 calls corresponding single storage data or a plurality of storage data according to a user matching scheme, converts the corresponding single storage data or the plurality of storage data into source codes capable of being recognized by the system according to the called storage data, generates source code information, and transmits the source code information to the software creation unit 50, the software creation unit 50 creates corresponding software according to recognized codes, generates software creation information, transmits the software creation information to the page matching unit 60, the page unit 60 matches the created software according to user requirements, forms which can be used by the user, the user can create a form with a form by simply clicking and dragging the form together, and obtain a service view.

According to the invention, the data acquisition unit 10 is used for acquiring the user application function, the data analysis unit 20 is used for carrying out data analysis on the user application function according to the acquired information, judging the data content, identifying the content of each service module of the safety risk control platform of the hazardous chemical substance enterprise, decomposing a simple filling and work flow page, helping each developer to quickly create new software by using a low-code platform, matching the created software by using the page matching unit 60 to form the service module which can be used by the user, creating a page with a form by the user in a simple clicking and data dragging mode, and stringing some forms and views together to obtain one service module, and developing the secondary source code development on the created form by the developer according to the service logic requirement of each service module, so that the service module which can be used by the user is quickly formed, and the construction speed of the safety risk control platform of the hazardous chemical substance enterprise is improved.

In addition, the data acquisition unit 10 includes a monitoring item setting module 110, the monitoring item setting module 110 is used for setting items to be monitored for the management and control target, an output end of the monitoring item setting module 110 is connected with a condition setting module 120, the condition setting module 120 is used for setting storage conditions of the system management and control target, an output end of the condition setting module 120 is connected with a monitoring time setting module 130, the monitoring time setting module 130 is used for setting management and control time and management and control interval time of the system management and control target, an output end of the monitoring time setting module 130 is connected with an attribute setting module 140, and the attribute setting module 140 is used for setting attribute information of the system management and control target.

When the system is used specifically, the monitoring item setting module 110 sets a monitoring item needed by controlling a target, for example, a security risk control platform of a hazardous chemical enterprise includes multiple contents such as safety production information, law and regulation management, equipment and facility integrity, a double prevention system, operation permission management, intelligent inspection, personnel positioning management, contractor management, training management, major hazard source management, agile emergency management, performance assessment, and the like, a user can set a corresponding monitoring item according to monitoring requirements, the condition setting module 120 sets storage conditions of the system control target, the monitoring time setting module 130 sets control time and control interval time of the system control target, sets corresponding control time and control interval time according to different monitoring requirements, and the attribute setting module 140 sets attribute information of the system control target

Further, an output end of the property setting module 140 is connected to a setting input module 150, the setting input module 150 is configured to extract setting information of the monitoring item setting module 110, the condition setting module 120, the monitoring time setting module 130, and the property setting module 140, an output end of the setting input module 150 is connected to a corresponding data configuration module 160, the corresponding data configuration module 160 configures corresponding data according to the setting information and binds the configuration data with the setting information, and an input end of the corresponding data configuration module 160 is connected to an output end of the data storage unit 30. When the system is used, the output end of the property setting module 140 is connected with the setting input module 150, the setting input module 150 is used for extracting the setting information of the monitoring item setting module 110, the condition setting module 120, the monitoring time setting module 130 and the property setting module 140, the settings are classified, the classified setting information is transmitted to the corresponding data configuration module 160, the corresponding data configuration module 160 configures corresponding data according to the setting information, the configuration data is bound with the setting information, the data storage unit 30 stores the bound information, the same data is called in the later period, the corresponding configuration data can be directly extracted from the data storage unit 30 only by inputting the setting information through the setting input module 150, operation steps are reduced, and the response efficiency of the system is further improved.

Still further, the data analysis unit 20 includes a data content identification module 210, an output end of the data content identification module 210 is connected to a data classification module 220, the data classification module 220 is configured to classify data corresponding to the user application function, and an output end of the data classification module 220 is connected to a data content output module 230. The data content identification module 210 identifies data corresponding to the user application function, determines the data content, and transmits the determined content to the data classification module 220, where the data classification module 220 is configured to classify the data corresponding to the user application function, and output the classified data through the data content output module 230.

Specifically, the data storage unit 30 includes a cloud database 310, the cloud database 310 is configured to store complete data corresponding to the user application function stored in the data storage unit 30, and the cloud database 310 runs and updates the stored content synchronously with the data storage unit 30. The cloud database 310 operates to synchronously follow the data storage unit 30 to update the storage content, so that the data storage content of the data storage unit 30 is updated in time, the same storage data in the data storage unit is removed, and the data redundancy phenomenon is avoided.

In addition, the simulation unit 70 includes a source code comparison module 710, the source code comparison module 710 is configured to compare source codes corresponding to each software, and determine whether the source codes have problems of duplication, sequence confusion, code missing or increase, and the like, an output end of the simulation unit 70 is connected to a source code verification module 720, the source code verification module 720 is configured to perform verification processing on the source codes and corresponding software, and determine whether an abnormality occurs according to actual simulation operation, an output end of the source code verification module 720 is connected to an error code modification module 730, and the error code modification module 730 is configured to modify an abnormal code. When the method is used specifically, the source code comparison module 710 is configured to compare source codes corresponding to each software, determine whether the source codes have problems of repetition, order confusion, code missing or increase, and the like, and identify abnormal positions of the source codes, the source code verification module 720 is configured to perform verification processing on the source codes and corresponding software, determine whether an abnormality occurs according to actual simulation operation, determine an abnormal type, and modify an abnormal code through the error code modification module 730 when an abnormal source code occurs.

Further, the error code modification module 730 is bi-directionally connected with an identity judgment module 740, and the identity judgment module 740 is used for determining the user who modified the error code. In the modification process of the abnormal code, the source code corresponding to the original data needs to be changed, firstly, the unbinding operation of the original data and the source code is carried out, the correct source code is formulated again, then, the binding is carried out, if any user can have the modification permission, the system modification disorder can occur, the user for modifying the error code is determined through the identity judgment module 740, and the determined user has the permission for modifying the source code, so that the system modification disorder phenomenon can be avoided, and the source code modification efficiency can be improved.

Still further, the input end of the data acquisition unit 10 is connected to a data modification unit 80, and the data modification unit 80 is configured to verify the acquired user application function data, determine whether the data is abnormal, modify the abnormal data, and update the user application function data. The data modification unit 80 checks the collected user application function data, determines whether the data is abnormal, distinguishes the abnormal data from the normal data, modifies the abnormal data, and updates the user application function data in time.

In addition, the input end of the data modification unit 80 is connected to an identity verification unit 90, and the identity verification unit 90 is configured to determine the identity of the user who modifies the data. The identity authentication unit 90 judges the data modification user, transfers the modification right, and the user without the modification right can not modify the data, thereby reducing the data modification frequency and avoiding the occurrence of modification disorder.

Example 2

Fig. 6 shows the specific operation contents of the system:

the first step is as follows: selecting a service configuration-metadata-data source and adding a data source;

the second step: filling data source information, and storing and managing after filling;

the third step: searching and finding the newly-built data source, and configuring a corresponding data table;

the fourth step: selecting data table attributes, filling in table information, and storing virtual column information (note: table name must start with "t _");

the fifth step: adding a search function to the field, checking whether to index the selection box or not, and storing;

and a sixth step: making a table operation-creating a table;

the seventh step: selecting an attribute-view attribute;

the eighth step: through the configured data table, pulling the created field, configuring the control type, selecting whether to input, display, search and other functions, and completing and storing the configuration;

the ninth step: creating a heavy load table and making a data source field;

the tenth step: and (4) adding, deleting, modifying and checking the information recorded by the current data source table through the page to be called, and displaying the operation result of the system operation.

The low code platform has the following characteristics:

1. the method comprises the following steps of data source management function, online data source management, service data table structure unification, dynamic customization of service virtual columns by utilizing the characteristics of database virtual columns, flexible expansion of service fields and visual online configuration support.

2. The data source view function supports the configuration of common UI components based on the data source function, controls the UI component type and the customization attribute of the data model at the front end on line, and supports the characteristics of multi-view, expandability, low-cost integration and the like.

3. The dynamic template function is based on data sources such as data sources, interfaces and self-definition, and various multi-data dynamic forms with various required forms can be assembled by combining the form rendering component.

4. The online design concept, the data source view and the template view all provide an online designer, the main body design can be completed without coding, and real-time preview is supported, so that what you see is what you get is.

By surrounding the technical elements, the safety risk management and control platform of the hazardous chemical substance enterprise is analyzed, and all modules of the hazardous chemical substance enterprise surround the safety management requirements of the enterprise.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only preferred examples of the present invention and are not intended to limit the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, which fall within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. Dangerous chemical enterprise safety risk management and control platform based on low code platform founds, including control terminal, control terminal is the main control end of system, and the user sends control command, control terminal includes data acquisition unit (10), data acquisition unit (10) are used for gathering user application function, data acquisition unit (10) output is connected with data analysis unit (20), data analysis unit (20) are used for carrying out data analysis to user application function, judge data content, data analysis unit (20) output is connected with data storage unit (30), data storage unit (30) are used for storing the data that each user application function corresponds, its characterized in that:

the control terminal is bidirectionally connected with a low-code platform, the low-code platform comprises a code conversion unit (40), and the code conversion unit (40) is used for converting source codes of data corresponding to user application functions into codes for identifying a system;

the output end of the code conversion unit (40) is connected with a software creation unit (50), and the software creation unit (50) creates corresponding software according to the identified code;

the output end of the software creating unit (50) is connected with a page matching unit (60), and the page matching unit (60) matches the created software according to the user requirements to form a service module for the user to use;

the output end of the page matching unit (60) is connected with a simulation unit (70), and the simulation unit (70) simulates the operation program of the service module according to the formed service module.

2. The low-code platform-based hazardous chemical substance enterprise security risk management and control platform of claim 1, wherein: the data acquisition unit (10) comprises a monitoring item setting module (110), the monitoring item setting module (110) is used for setting a monitoring item required by a control target, the output end of the monitoring item setting module (110) is connected with a condition setting module (120), the condition setting module (120) is used for setting the storage condition of the control target of the system, the output end of the condition setting module (120) is connected with a monitoring time setting module (130), the monitoring time setting module (130) is used for setting the control time and the control interval time of the control target of the system, the output end of the monitoring time setting module (130) is connected with an attribute setting module (140), and the attribute setting module (140) is used for setting the attribute information of the control target of the system.

3. The safety risk management and control platform for hazardous chemical substance enterprises built on the basis of the low-code platform according to claim 2, characterized in that: the output end of the attribute setting module (140) is connected with a setting input module (150), the setting input module (150) is used for extracting the setting information of the monitoring item setting module (110), the condition setting module (120), the monitoring time setting module (130) and the attribute setting module (140), the output end of the setting input module (150) is connected with a corresponding data configuration module (160), the corresponding data configuration module (160) configures corresponding data according to the setting information and binds the configuration data with the setting information, and the input end of the corresponding data configuration module (160) is connected with the output end of the data storage unit (30).

4. The low-code platform-based hazardous chemical substance enterprise security risk management and control platform of claim 1, wherein: the data analysis unit (20) comprises a data content identification module (210), the output end of the data content identification module (210) is connected with a data classification module (220), the data classification module (220) is used for classifying data corresponding to user application functions, and the output end of the data classification module (220) is connected with a data content output module (230).

5. The low-code platform-based hazardous chemical substance enterprise security risk management and control platform of claim 2, wherein: the data storage unit (30) comprises a cloud database (310), the cloud database (310) is used for storing complete data corresponding to user application functions in the data storage unit (30), and the cloud database (310) runs and synchronously updates storage contents along with the data storage unit (30).

6. The low-code platform-based hazardous chemical substance enterprise security risk management and control platform of claim 1, wherein: the simulation unit (70) comprises a source code comparison module (710), the source code comparison module (710) is used for comparing source codes corresponding to all software, the output end of the simulation unit (70) is connected with a source code check module (720), the source code check module (720) is used for checking the source codes and the corresponding software, whether abnormity occurs is judged according to actual simulation operation, the output end of the source code check module (720) is connected with an error code modification module (730), and the error code modification module (730) is used for modifying the abnormal codes.

7. The safety risk management and control platform for the hazardous chemical substance enterprises built on the basis of the low-code platform according to claim 6, wherein: the error code modification module (730) is bidirectionally connected with an identity judgment module (740), and the identity judgment module (740) is used for determining a user for error code modification.

8. The low-code platform-based hazardous chemical substance enterprise security risk management and control platform of claim 1, wherein: the input end of the data acquisition unit (10) is connected with a data modification unit (80), and the data modification unit (80) is used for verifying acquired user application function data.

9. The low-code platform-based hazardous chemical substance enterprise security risk management and control platform of claim 8, wherein: the input end of the data modification unit (80) is connected with an identity verification unit (90), and the identity verification unit (90) is used for judging the identity of a user modifying data.