CN115239179A - Chemical production operation flow system - Google Patents

Abstract

The application provides a chemical production workflow system. This chemical production operation flow system includes: a flow module and a ticket module. The flow module is used for performing operation management on the production operation of the chemicals by using preset operation flows of the production operation of the chemicals, and sending operation data corresponding to each operation flow in the production operation process of the chemicals to the ticket module. And the ticket module is used for generating and storing the operation ticket corresponding to each operation flow according to the operation data corresponding to each operation flow. The method and the system aim at special operation scenes to carry out operation management of chemical production operation, realize the function of automatically archiving operation data required to be archived in each operation flow and improve the operation efficiency.

Description

Chemical production operation flow system

Technical Field

The application belongs to the technical field of chemical production, and particularly relates to a chemical production operation flow system.

Background

The operation flow refers to a step that a plurality of business objects cooperate together to complete a certain thing, and in the process, documents, information or tasks flow according to a certain process rule to realize the cooperative work among organization members so as to achieve the overall goal of the business. At present, a flow system is generally used to manage a work flow, thereby improving work efficiency.

However, no flow systems currently exist for chemical production operations. Therefore, how to establish a flow system for chemical production operation to improve the efficiency of chemical production operation is an urgent technical problem to be solved.

Disclosure of Invention

The application provides a chemical production operation flow system, which is used for solving the problem that the flow system aiming at the chemical production operation does not exist at present.

The application provides a chemical production operation flow system. The chemical production workflow system includes: a flow module and a ticket module;

the flow module is used for performing operation management on the production operation of the chemicals by using preset operation flows of the production operation of the chemicals and sending operation data corresponding to each operation flow in the production operation process of the chemicals to the ticket module;

and the ticket module is used for generating and storing the operation ticket corresponding to each operation flow according to the operation data corresponding to each operation flow.

Optionally, the flow module is specifically configured to:

acquiring operation data corresponding to the operation flow according to an operation form template corresponding to the operation flow; the job form template is preset with information of job data required to be acquired;

writing the operation data into the operation form template to generate an operation form corresponding to the operation flow;

and sending the job form to the ticket module.

Optionally, the flow module is specifically configured to:

outputting a user interface comprising the job form template;

and receiving the operation data input by the user through the user interface.

Optionally, the job data includes: the data processing system comprises first data used for representing whether a work flow is safe or not and second data used for representing whether a work environment is safe or not;

the flow module is specifically configured to:

acquiring a first result of whether the operation process is safe or not according to the first data;

acquiring a second result of whether the working environment is safe or not according to the second data;

updating the first result and the second result into the job form template.

Optionally, the chemical production workflow system further comprises: the Internet of things equipment is accessed to the management module;

the Internet of things equipment access management module is used for managing the Internet of things equipment accessed to the chemical production operation process system;

and the Internet of things equipment is used for monitoring the chemical production operation and providing the first data and the second data for the process module.

Optionally, the internet of things device comprises an environmental monitoring device disposed in the chemical production operation environment; the second data includes: and monitoring data of the chemical production operation environment.

Optionally, the internet of things device comprises a video monitoring device disposed in the chemical production work environment; the first data includes: video monitoring data of the chemical production operation.

Optionally, the ticket module is specifically configured to:

obtaining ticket data corresponding to the operation flow from operation data corresponding to the operation flow;

and generating and storing the operation ticket corresponding to the operation flow according to the ticket data.

Optionally, the ticket module is specifically configured to:

acquiring the information of the required ticket data according to the ticket template corresponding to the operation flow;

acquiring ticket data corresponding to the operation flow from operation data corresponding to the operation flow according to the information of the required ticket data;

and writing the ticket data into a corresponding position in the ticket template to generate the operation ticket.

Optionally, the ticket module is specifically configured to:

if the operation ticket corresponding to the operation flow is stored previously, adding a data filling area for the operation ticket;

and writing the ticket data into the data filling area to obtain an updated operation ticket.

According to the chemical production operation flow system, operation management is carried out on production operation of chemicals through the flow module, and operation data corresponding to each operation flow in the chemical production operation process are sent to the ticket module. The ticket module generates the operation ticket corresponding to each operation flow according to the acquired operation data corresponding to each operation flow, so that the effect of automatically generating and updating the operation ticket corresponding to each operation flow by the ticket module is achieved, the operation data needing to be stored in the chemical production operation flow is retained, the efficiency of chemical production operation is improved, and the convenience of subsequent operations such as examination, re-checking and the like after the operation is performed on the content of the chemical production operation flow is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and, together with the description, serve to explain the principles of the application:

FIG. 1 is a schematic diagram of a chemical production workflow system architecture provided by an embodiment of the present application;

FIG. 2 is a schematic illustration of a process flow for a chemical production operation provided by an embodiment of the present application;

FIG. 3 is an exemplary diagram of a job form template provided by an embodiment of the present application;

FIG. 4 is a schematic diagram of a user interface and a corresponding user sub-interface provided in an embodiment of the present application;

FIG. 5 is an exemplary diagram of a user sub-interface for obtaining first data provided herein;

FIG. 6 is an exemplary diagram of a user sub-interface for obtaining second data provided herein.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the inventive concepts to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The following first explains the concept of nouns involved in the present application:

process Engine: refers to the automation of a portion or the whole of a business process in a computer application environment, and mainly solves the problem of automatically performing a process of transferring documents, information or tasks among a plurality of participants according to some predefined rule, thereby achieving or facilitating the achievement of a certain desired business objective. The process engine is mainly used for generating a process system, finishing the definition and management of the process and executing the process instance according to the process rules predefined in the system. The process engine is applied to various systems driven by the process, such as an Office Automation system (OA), a Customer Relationship Management system (CRM), an Enterprise Resource Planning system (ERP), and the like.

At present, a process system generated by a process engine mainly indicates an actual operation process of a user through a preset operation process. For example, in the OA system, the application is approved, and the approval of the job application is completed through the processes of layer-by-layer approval and countersigning of enterprise members of different departments and different job levels. Or, the enterprise members of different departments and different job levels can complete the operation flow node corresponding to the member by uploading files, submitting forms and the like, and push the next operation flow node to the corresponding next member. Through the mode, the flow system can complete the cooperative work among the enterprise members, so that the enterprise members only need to care about the tasks to be handled in the flow system, and the operation efficiency is improved.

However, in the context of chemical production operations, the operations are more likely to generate dangers and the consequences of the dangers are more serious, and therefore, there are high demands on the safety of the production environment, the safety of the operation, and the like in the chemical production process. For example, in a chemical production operation flow, one or more special operation scenes such as fire and temporary electricity utilization in equipment maintenance can be included, and the flow system needs to establish corresponding contents according to the special operation scenes so as to ensure the safety of the chemical production operation. However, no flow system exists in the prior art for chemical production operations.

In view of this, the present application provides a chemical production workflow system for a special operation environment included in chemical production operation, so as to improve the efficiency of chemical production operation.

The chemical production workflow system provided by the application can be deployed in a cloud environment. The cloud environment is an entity which provides cloud services to users by using basic resources in a cloud computing mode. A cloud environment includes a cloud data center including a large number of infrastructure resources (including computing resources, storage resources, and network resources) owned by a cloud service provider, and a cloud service platform, and the computing resources included in the cloud data center may be a large number of electronic devices (e.g., servers). For example, taking the example that the computing resources included in the cloud data center are servers running virtual machines, the chemical production workflow system may be deployed independently on the servers or virtual machines in the cloud data center, or may be deployed in a distributed manner on multiple servers in the cloud data center, or on multiple virtual machines in the cloud data center, or on the servers and virtual machines in the cloud data center.

The chemical production workflow system can be abstracted into a chemical production workflow service on a cloud service platform by a cloud service provider and provided for users.

The chemical production workflow system may also be deployed on an electronic device separately, and the electronic device may include, for example, a server, or a server cluster, a computer, a smart phone, a tablet computer, or other terminal devices with computing capabilities.

The following describes the technical solution of the present application and how to solve the above technical problems in detail by specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of a chemical production workflow system architecture according to an embodiment of the present disclosure. As shown in fig. 1, the system may include: a flow module 11, and a ticket module 12.

First, how to construct the flow module 11, and the ticket module 12 will be described in detail.

The flow module 11 may be generated, for example, according to the aforementioned flow engine. When the flow module 11 is constructed, the sequence of the workflow in the flow module 11 and the contents such as the flow conditions between each workflow are drawn by dragging and the like by using a visual flow engine configuration tool, for example, a workflow platform developed based on activiti. By the method for visually constructing the flow module 11, the configuration method of the flow module 11 can be simplified, so that system configuration personnel can more conveniently and quickly configure and update the flow module 11.

The ticket module 12 may, for example, complete drawing of a ticket template through a visualization tool, where the drawing of the ticket template may include one or more of a page style, a data item, a data format corresponding to the data item, a data source, and the like. Besides the above drawing, the ticket template may also be configured with one or more items of basic information of the ticket template, such as the version of the ticket template, and corresponding contents of a chemical production workflow.

After completing the construction of the flow module 11 and the ticket module 12, the flow module 11 and the ticket module 12 may be used for the following:

a: the flow module 11 is configured to perform operation management on the production operation of the chemical by using a preset operation flow of the production operation of the chemical, and send operation data corresponding to each operation flow in the production operation of the chemical to the ticket module 12.

Fig. 2 is a schematic diagram of an operation flow of a chemical production operation according to an embodiment of the present application. As shown in fig. 2, the preset chemical production process may include: approval process, production process and acceptance process.

The approval process can be used for determining approval steps and approval contents which need to be manually approved before the production of chemicals in the production operation of the chemicals, for example; the production flow may be used, for example, to guide what steps the production of chemicals is performed according to in the production operation of chemicals, so that the production of chemicals can be completed according to predetermined steps while ensuring predetermined production effects in the production of chemicals; and the acceptance flow is used for the step of acceptance of the production result after the production of the chemicals is finished.

It should be understood that the embodiments of the present application only refer to the approval process, the production process, and the acceptance process, and actually do not limit the content and/or classification of the operation process, and the approval process may be before the chemical production process or may exist between the chemical production processes.

The flow module 11 may indicate an actual flow of the chemical production operation through the preset operation flow, and obtain data, information, and the like generated in the production operation, thereby implementing operation management of the chemical production operation. The data and information generated in the production operation may be, for example, production data of chemicals, environmental analysis data (e.g., environmental gas concentration data), production result data, approval data of related responsible persons, and the like (one or more items, which are determined according to requirements).

The flow module 11 obtains data, information, and the like generated in the production job in job management, and then sends the data and the information to the ticket module 12, for example, the data and the information may be stored in a file, and the file is sent to the ticket module 12; or directly adds the identification of the corresponding workflow to the data and information, respectively, so that the ticket module 12 can identify which workflow the data and information originated from.

B: the ticket module 12 is configured to generate and store an operation ticket corresponding to each operation flow according to the operation data corresponding to each operation flow.

The operation ticket is used for storing detailed operation contents of a corresponding operation flow so as to facilitate subsequent operations of examining, reviewing and the like on the contents of the operation flow. After acquiring the job data corresponding to each job flow, the ticket module 12 stores the job data of the job flow for each job flow, and may store the job data in any manner of a database, a document, and the like. The ticket module 12 generates a corresponding job ticket according to the job data.

According to the chemical production operation flow system, operation management is carried out on production operation of chemicals through the flow module, and operation data corresponding to each operation flow in the chemical production operation process are sent to the ticket module. The ticket module generates the operation ticket corresponding to each operation flow according to the acquired operation data corresponding to each operation flow, so that the effect of automatically generating and updating the operation ticket corresponding to each operation flow by the ticket module is achieved, the operation data needing to be stored in the chemical production operation flow is retained, the efficiency of chemical production operation is improved, and the convenience of subsequent operations such as examination, re-checking and the like after the operation is performed on the content of the chemical production operation flow is improved.

In the following, a description is given of how the job data acquisition and transmission functions of the flow module 11 are realized by the job form template:

the flow module 11 includes: according to the operation form template corresponding to the operation flow of the chemical production operation. The content in the job form template characterizes a requirement for job flow data of the job flow corresponding to the job form template.

The operation form template is in one-to-one correspondence with the operation flow of the chemical production operation, namely, one operation form template only belongs to the operation flow of one chemical production operation. The job form template can generate a corresponding job form template by setting contents such as data items, data formats, page styles and the like in the job form template according to actual job flow requirements and utilizing a visual form generation technology. The above visualization generation form may refer to the prior art, and is not described herein again.

Taking a fire scene in a chemical production operation as an example, fig. 3 is an exemplary diagram of an operation form template provided in an embodiment of the present application. As shown in fig. 3, the job form template corresponds to a job application workflow in a fire scene in a chemical production job. The job form template includes:

application information of the firing work (for example, a firing application unit, a firing level, whether or not a contractor works, etc.), time information of the firing work (for example, a planned work start time, a predicted work time, etc.), information of a firing work place, work contents, and the like. The above contents and information represent data required to be obtained for the application flow of the fire work during the current fire work, so as to indicate the basic information of the current fire work, that is, the requirement of the work flow data of the fire work flow is represented. It should be understood that the present application is only illustrated in fig. 3, and the above-mentioned contents and information can be adjusted and selected according to actual needs.

In this embodiment, the process module 11 provides the ticket template with the workflow data of the chemical production operation, including:

s301, acquiring and collecting the job data corresponding to the corresponding job flow according to the content in the job form template, wherein the information of the job data required to be acquired is preset in the job form template.

The content in the job form template may be, for example, data items in the job form template, such as time information of the above-mentioned firing job, scheduled job start time, and the like. The method for the flow module 11 to collect the above-mentioned operation data may be, for example, reading data input and selected by a user through a user interface, or receiving a data file sent by the user. And acquiring the job data according to the content of the corresponding data item in the read data file.

In one possible implementation, the job data is collected by constructing a user interface of a job form. The flow module 11 outputs a user interface including the job form template, and receives job data input by a user through the user interface.

The user interface for the job form template may be, for example, the same user interface as described above for the job form template interface in FIG. 3; or a user interface that has a style that is different from the job form template of fig. 3, but that includes at least one or more of the data items in the job form template of fig. 3.

Optionally, the user interface may also include a user sub-interface. The user sub-interface can be used for meeting the requirements of special operation scenes in chemical production operation, so that the flow module 11 can acquire operation data of corresponding special operation scenes through the user sub-interface, judge the operation data and write the judgment result into a corresponding area in the user interface. The user sub-interface may be opened by skipping directly from the user interface, or may be associated with the user interface in the process module 11, for example, the user interface is displayed on the first terminal, the user sub-interface is displayed on the second terminal of the user, and the user can automatically write in the corresponding area of the user interface according to data input in the user sub-interface by filling in the user sub-interface displayed on the smart phone, so as to improve applicability and convenience of the process module 11 in chemical production operation. The first terminal and the second terminal may be any terminals capable of displaying a user interface, such as a server, a computer device, and a mobile terminal.

Fig. 4 is a schematic diagram of a user interface and a corresponding user sub-interface provided in an embodiment of the present application, as shown in fig. 4, including: a user interface, and a user sub-interface.

A user interface: the user interface includes 6 items of data, where the items of data 1 to 5 may be written manually by a user, may also be written by receiving data transmitted by the user, and may also be data actively acquired and automatically written by the process module 11. The project data 6 is automatically acquired based on the analysis results of the plurality of project data of the user sub-interface.

The user sub-interface: including project data 6-1, project data 6-2, and project data 6-3. The flow module 11 can autonomously calculate and obtain the corresponding data result according to the project data in the user sub-interface. After the flow module 11 obtains the data result, data corresponding to the data result may be automatically written in the item data 6 in the user interface according to the data result.

In this embodiment, the job data may include, for example: the system comprises a first data for characterizing whether the workflow is safe, and a second data for characterizing whether the work environment is safe.

Taking the safety measure management in the chemical production operation flow as an example, this user sub-interface may include at least one item of the items such as the safety measure management requirement, the on-site photo, and the failure condition, for example, and the following description will take the example that the first data includes the safety measure management requirement and the on-site photo. FIG. 5 is an exemplary diagram of a user sub-interface for obtaining first data provided herein.

The live photo uploaded in the user sub-interface is used for judging whether the operation flow meets the safety measure management requirement in the operation, and the live photo is the first data. The above-mentioned security measure management requirements may be obtained from a security measure management library connected to the flow module 11. The safety measure management library may belong to the process module 11, or may not belong to the process module 11 but is connected to the process module 11, which is not particularly limited in the present application

Taking the working environment in the chemical production process as an example, the user sub-interface may include at least one item of the gas name, the gas safety rule, the gas concentration, and the like, and fig. 6 illustrates the second data including the gas name, the gas safety rule, the analysis location, the sampling time, the gas concentration, the concentration unit, and the field photograph as an example. FIG. 6 is an exemplary diagram of a user sub-interface for obtaining second data provided herein.

The content to be filled or selected is the second data, and is used for judging whether the concentration of various gases in the working environment in the working process exceeds the standard or not and whether the environmental safety problem exists or not. The gas safety rules may be obtained from a gas reservoir connected to the process module 11. The gas reservoir may belong to the process module 11, or may not belong to the process module 11 but be connected to the process module 11, which is not particularly limited in the present application.

The process module 11 is specifically configured to:

and acquiring a first result of whether the operation process is safe or not according to the first data. The user submits the page by uploading the live photo and clicking the "confirm security" button. The flow module 11 may identify the obtained live photo by image identification or the like, and determine whether there is content that does not meet the security management requirement.

And acquiring a second result of whether the working environment is safe or not according to the second data. The user inputs the analysis part, the sampling time, the concentration unit and the scene photo by selecting the gas name of the user sub-interface in the graph 5, and then the concentration of the gas corresponding to the gas name can be detected by the gas detection device, and the gas safety rule can display the gas safety rule corresponding to the gas according to different selections of the gas name, so that whether the working environment is safe or not is judged according to the gas judgment rule.

And updating the first result and the second result into the job form template. After the flow module 11 finishes determining the first result and the second result, the first result and the second result are written into corresponding areas in the job form template according to the user sub-interface or the mapping relationship between the results and the content in the job form template.

And S302, writing the job data into a job form template to generate a job form corresponding to the job flow.

After the process module 11 obtains job data provided by the user, the job data is filled into a corresponding position in the job form template (that is, in a data filling area of a corresponding data item), after all data items in the job form template are filled with corresponding job data, the filled job form template is used as a job form corresponding to the job process, or a new form is generated according to the filled job form template, where the new form includes contents in the job form template and job data corresponding to the contents.

And S303, sending the job form to the ticket module 12.

In view of the problems of the chemical production workflow, the operational safety of the workflow, the environmental safety during the work process and the like need to be controlled. Therefore, how to enable the flow module to automatically collect and identify the environmental security and the operation security is a problem which needs to be solved urgently.

Optionally, with continued reference to fig. 1, the chemical production workflow system may further include: and the equipment of the internet of things accesses the management module 13.

The internet of things equipment access management module 13 is used for managing the internet of things equipment accessed into the chemical production operation process system and acquiring data of the internet of things equipment of the chemical production operation process system.

The access management module 13 of the internet of things device can complete the access of the internet of things device by operating the configuration interface. After the access of the internet of things device, the access management module 13 of the internet of things device can manage the internet of things device in an object model manner, that is, the internet of things device is digitally represented, and the category, the function and the like of the internet of things device are described according to three dimensions of attributes, services and events. The access management module 13 may also perform authentication for connection of the accessed internet of things device, for example, the authentication may be performed in one or more of a user name (username), a client identity number (ClientID), a hypertext Transfer Protocol (HTTP), and the like.

The data acquired by the internet of things device access management module 13 may be acquired by using a Message Queue Telemetry Transport (MQTT), a restricted Application Protocol (CoAP), a Websocket, a Transmission Control Protocol (TCP), and other protocols. The connection between the access management module 13 of the internet of things and the internet of things device may be a long connection or a short connection, which is not limited in the present application.

The above-mentioned internet-of-things device may be, for example, one or more of a temperature monitoring device, a gas monitoring device, a radiation monitoring device, a noise monitoring device, a video monitoring device, and the like, which are used for monitoring whether the operation is safe in the chemical production operation flow, so as to monitor the chemical production operation. The access management module 13 of the internet of things equipment can provide operation data to the process module by acquiring data acquired by the monitoring equipment, so that corresponding data can be checked and recorded in real time through the internet of things equipment, and an alarm function can be provided.

In a possible implementation manner, the operation data provided by the access management module 13 for the equipment connected to the internet of things to the process module may include first monitoring data and second monitoring data, where the first monitoring data and the second monitoring data are determined according to the equipment connected to the access management module 13 for the equipment connected to the internet of things, that is, the first monitoring data and the second monitoring data are monitoring data collected by the equipment connected to the corresponding internet of things. The following description will take the first monitoring data as the monitoring data of the chemical production operation environment and the second monitoring data as the video monitoring data of the chemical production operation as an example.

First monitoring data: the internet of things equipment comprises video monitoring equipment arranged in a chemical production operation environment. The video monitoring device may be used to monitor whether the production operation of an operator meets the production operation specification, or to monitor the potential safety hazard in the chemical production workshop, for example. The video monitoring device may be any device of devices such as a camera and a monitor, and through an electrical connection or a communication connection with the access management module 13 of the equipment connected to the internet of things, the video monitoring device and the access management module 13 of the equipment connected to the internet of things may transmit corresponding video monitoring data through any video transmission protocol of multiple video transmission protocols such as m3u8, rtmp, rtsp, and the like. The user can judge whether the production operation of the monitoring operation personnel conforms to the production operation safety according to the video monitoring data in the chemical production operation workshop acquired from the video monitoring equipment.

Second monitoring data: the internet of things equipment comprises environmental monitoring equipment arranged in a chemical production operation environment. The environment monitoring device may be, for example, a gas monitoring device corresponding to the gas reservoir, such as any one of environment monitoring devices such as a fixed gas detector and a portable gas detector. The gas monitoring equipment can monitor the types, concentration and other contents of the gas in the chemical production operation environment, generate corresponding information of at least one gas according to a monitoring result, transmit the obtained information of the gas to the Internet of things equipment access management module 13, and automatically write the gas information in the corresponding position of the operation form template in the flow module, so that the efficiency of judging whether the chemical production operation environment is safe is improved.

The present application is only exemplified by the monitoring device, and it should be understood that the monitoring device may further include one or more of the radiation monitoring device, the noise monitoring device, and the like, which are similar to the above, and detailed description thereof is omitted here.

The application provides a chemical production operation flow system, through above-mentioned thing allies oneself with equipment access management module 13, is connected with thing allies oneself with equipment, through obtaining the data that monitor in the thing allies oneself with equipment to in transmitting these data to the flow module, carry out automatic write-in to the partial content of the operation form template in the flow module, not only improved the efficiency of chemical production operation, can also prevent effectively that the production safety problem that the artificial data of falsifying brought.

The ticket module 12 will be described in detail below.

The ticket module 12 is specifically configured to:

and S401, obtaining the ticket data corresponding to the operation flow from the operation data corresponding to the operation flow.

The ticket data is used for storing part or all of the job data in the job flow, which can be set according to actual needs, so as to be used for keeping the job data, and a user can conveniently review the situation of the job flow. The method of acquiring the corresponding ticket data from the job data may be, for example, setting a mapping relationship between the job data and the corresponding ticket data in advance, and acquiring the corresponding ticket data from the job data according to the mapping relationship.

According to a possible implementation manner, the required ticket data information is obtained according to the ticket template corresponding to the operation flow. And acquiring the ticket data corresponding to the operation flow from the operation data corresponding to the operation flow according to the information of the required ticket data. And writing the ticket data into the corresponding position in the ticket template to generate the operation ticket.

The ticket template may be a form page drawn by a user through visual editing software according to actual needs, where the ticket template includes data items associated with the job form template in the corresponding job flow, for example, the form template includes contents such as job items, job persons, job time, and job environment information, and the user needs to archive the three items of data such as job items, job persons, and job time. The three items of data are the information of the required ticket data. When the execution of the job flow in the flow module 11 is completed, the corresponding job data is already written into the job form template. At this time, the ticket module 12 may obtain the job data corresponding to the information of the required ticket data according to the mapping relationship between the job data and the information of the required ticket data, for example, the data name of the data item, and fill the obtained job data in the data writing position of the corresponding data item in the ticket template. And after the ticket data is written in the ticket template, generating the operation ticket according to the ticket template which is written.

Another possible embodiment is that, when constructing the ticket template, a mapping relationship between a data item in the ticket template and a data item of a job form template in a corresponding job flow is set, and when the flow module 11 acquires job data of the data item in the job form template, the job data is assigned to a writing position of the corresponding data item in the ticket template. The mapping relationship here can be realized by a pointer and the like in the prior art, for example, and the description of the present application is omitted.

And S402, generating and storing the operation ticket corresponding to the operation flow according to the ticket data.

In one possible embodiment, when job data of a plurality of jobs needs to be stored in one job ticket, for example, when the job flow needs to analyze indicators such as stability and yield of the job data of the plurality of jobs, if a job ticket corresponding to the job flow is previously stored in the ticket module 12, a data padding area is added for the job ticket.

Taking the new operation time as an example, the following table 1 shows before the new data filling area is added:

TABLE 1

Data name	Data content
		Work item	Item A
Working person	Zhang-a
		Working time	2020/1/8/15:00
Work site	Laboratory A

The newly added data padding area is shown in table 2 below:

TABLE 2

Specifically, after the data item needing to be newly added, a data item which has the same data name as the data item but different identifier is newly added, and the attribute of the filling area of the newly added data item is set according to the attribute of the data item needing to be newly added. For example, "1" in the above-mentioned operation time 1 is a different flag.

And after the data filling area is newly added, writing the corresponding ticket data of the operation flow into the newly added data filling area to obtain an updated operation ticket. The updated job ticket may be, for example, as shown in fig. 3:

TABLE 3

Data name	Data content
		Work item	Item A
Working person	Zhang-a
		Working time	2020/1/8/15:00
Working time 1	2020/1/8/16:00
		Work site	Laboratory A

It should be understood that, for convenience of description, the present application only describes a new data item, and in actual operation, which data items are specifically added, and the new data items can be adjusted according to actual needs.

In another possible embodiment, when job data of a plurality of jobs does not need to be stored in one job ticket, for example, when one job ticket needs to be generated each time a job is completed in the job flow, if a job ticket corresponding to the job flow is previously stored in the ticket module 12, the corresponding data padding area in the job ticket is updated with the corresponding job data.

For example, taking the update job time as an example, the following table 4 shows before updating the data items:

TABLE 4

The data items are updated as shown in table 5 below:

TABLE 5

Data name	Data content
		Work item	Item A
Working person	Zhang-a
		Working time	2020/1/8/16:00
Work site	Laboratory A

At this time, two job tickets as in table 4 and table 5 above have been generated from two different jobs.

Through the function and the effect of the ticket module, in the chemical production process, data of partial chemical production operation process nodes can be filed to generate an operation ticket corresponding to the chemical production operation process, and operation data needing to be filed in the chemical production operation process is stored, so that convenience is brought to subsequent operations such as examination, re-recording and the like after operation on the content of the chemical production operation process.

According to the chemical production operation flow system, operation management is carried out on production operation of chemicals through the flow module, operation data in the production operation of the chemicals are obtained, and a corresponding operation form is generated. And then the job form is sent to a ticket module, the ticket module generates a job ticket corresponding to the job flow by acquiring the corresponding job data in the job form, and stores the job data required to be filed for each job flow, so that the job management of the production job of the chemicals is performed according to the special job scene, the function of automatically filing the job data required to be filed for each job flow is realized, and the job efficiency is improved.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and these modifications or substitutions do not depart from the scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. A chemical production workflow system, the chemical production workflow system comprising: a flow module and a ticket module;

the flow module is used for performing operation management on the production operation of the chemicals by using preset operation flows of the production operation of the chemicals and sending operation data corresponding to each operation flow in the production operation process of the chemicals to the ticket module;

and the ticket module is used for generating and storing the operation ticket corresponding to each operation flow according to the operation data corresponding to each operation flow.

2. The system of claim 1, wherein the process module is specifically configured to:

acquiring operation data corresponding to the operation flow according to the operation form template corresponding to the operation flow; the job form template is preset with information of job data required to be acquired;

writing the operation data into the operation form template to generate an operation form corresponding to the operation flow;

and sending the job form to the ticket module.

3. The system of claim 2, wherein the process module is specifically configured to:

outputting a user interface comprising the job form template;

and receiving the operation data input by the user through the user interface.

4. The system of claim 3, wherein the job data comprises: the data processing system comprises first data used for representing whether a work flow is safe or not and second data used for representing whether a work environment is safe or not;

the flow module is specifically configured to:

acquiring a first result of whether the operation process is safe or not according to the first data;

acquiring a second result of whether the working environment is safe or not according to the second data;

updating the first result and the second result into the job form template.

5. The system of claim 4, wherein the chemical production workflow system further comprises: the Internet of things equipment is accessed to the management module;

the Internet of things equipment access management module is used for managing the Internet of things equipment accessed to the chemical production operation process system;

and the Internet of things equipment is used for monitoring the chemical production operation and providing the first data and the second data for the process module.

6. The system of claim 5, wherein the equipment in-line comprises environmental monitoring equipment disposed in the chemical production process environment; the second data includes: and monitoring data of the chemical production operation environment.

7. The system of claim 5, wherein the equipment on-line comprises video monitoring equipment disposed in the chemical production operation environment; the first data includes: video monitoring data of the chemical production operation.

8. The system according to any one of claims 1 to 7, wherein the ticket module is specifically configured to:

obtaining ticket data corresponding to the operation flow from the operation data corresponding to the operation flow;

and generating and storing the operation ticket corresponding to the operation flow according to the ticket data.

9. The system of claim 8, wherein the ticket module is specifically configured to:

acquiring the information of the required ticket data according to the ticket template corresponding to the operation flow;

according to the information of the required ticket data, obtaining the ticket data corresponding to the operation flow from the operation data corresponding to the operation flow;

and writing the ticket data into a corresponding position in the ticket template to generate the operation ticket.

10. The system of claim 9, wherein the ticket module is specifically configured to:

if the operation ticket corresponding to the operation flow is stored previously, adding a data filling area for the operation ticket;

and writing the ticket data into the data filling area to obtain an updated operation ticket.

Images