CN110968623A - Electrolysis bath key construction parameter acquisition system and method based on mobile application - Google Patents

Abstract

The invention discloses an electrolytic bath key construction parameter acquisition system and method based on mobile application. The system and the method can solve the problem that key construction information of the electrolytic cell cannot be digitalized due to the shortage of an information network, a hardware system and a software system in the construction process of the electrolytic cell, and provide support for realizing the full life cycle management of the electrolytic cell in the later period.

Description

Electrolysis bath key construction parameter acquisition system and method based on mobile application

Technical Field

The invention belongs to the technical field of automation control, and relates to an electrolytic cell key construction parameter acquisition system and method based on mobile application.

Background

The electrolytic cell is used as the core equipment of an electrolytic aluminum plant, the running condition of the electrolytic cell directly determines the economic benefit level of the electrolytic aluminum plant, the management of the electrolytic cell is gradually refined at present, the full life cycle file of the electrolytic cell is the basis for realizing the refined management, at present, the data of the later-stage running of the electrolytic cell can be obtained by a ubiquitous cell control system and an electrolytic aluminum plant production management system, but the fine management of the electrolytic cell is needed, some parameters in the construction process of the electrolytic cell have important significance, and because the large-scale construction period of the electrolytic cell (generally at the construction initial stage of the electrolytic aluminum plant), the network construction is not finished under the common condition of the site, the workshop has no available network, machine rooms, servers and other facilities are not in place, and no available software management system exists, most of the electrolytic aluminum plants accumulate the initial-stage data of the electrolytic cell by hand, with the production of the electrolytic cell, the data are still in the state of paper reports, lack of information processing means and are not effectively utilized generally, and the situation is very unfavorable for realizing the management of the whole life cycle of the electrolytic cell. The invention provides a method for acquiring key construction parameters of an electrolytic cell based on mobile application, and a system constructed by the method can effectively acquire the construction parameters of the electrolytic cell and has important significance for realizing full life cycle management of the electrolytic cell in the later period.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide the system and the method for acquiring the key construction parameters of the electrolytic cell based on mobile application.

The invention provides an electrolytic bath key construction parameter acquisition system based on mobile application, which comprises: an electrolytic bath construction parameter background management subsystem and an electrolytic bath construction parameter foreground acquisition subsystem which perform information interaction through an operator network;

the electrolytic bath construction parameter background management subsystem is used for customizing the types of parameters to be acquired and managing the acquired parameters at the PC terminal; the electrolytic cell construction parameter foreground acquisition subsystem is used for acquiring key construction parameters of the electrolytic cell and managing the parameters by using the mobile terminal.

In the system for collecting the key construction parameters of the electrolytic cell based on the mobile application, the background management subsystem of the construction parameters of the electrolytic cell comprises:

the user management module is used for distributing different use authorities to different users;

the parameter setting module is used for setting the types of parameters required to be collected by different electrolytic aluminum plants in a user-defined manner;

the background parameter auditing module is used for auditing the electrolysis bath key construction parameters acquired on site through the PC end, storing the parameters into the cloud database after the parameters are approved, and returning the parameters to the site personnel for re-acquisition if the parameters do not pass the database;

the background parameter modification module is used for modifying the key parameters of the electrolytic bath construction through the PC end;

the parameter statistical module is used for performing statistics, summarization and analysis on related parameters after the acquisition of the construction parameters of the electrolytic cell is completed;

the background parameter query module is used for querying the acquired construction key parameters of the electrolytic cell by utilizing various combination conditions through the PC terminal;

and the parameter derivation module is used for deriving the key construction parameters of the electrolytic cell and providing a plurality of derivation formats.

In the system for collecting the key construction parameters of the electrolytic cell based on mobile application, the foreground collection subsystem of the construction parameters of the electrolytic cell comprises:

the user login module is used for realizing login by a mobile terminal user in a mode of inputting a user name and a password according to the set user authority:

the parameter acquisition module is used for completing acquisition work of key construction parameters of different electrolytic cells on site by utilizing the mobile terminal according to the type of the parameters to be acquired which are set by a user;

the foreground parameter auditing module is used for auditing the acquired key construction parameters of the electrolytic cell by field workers through the mobile terminal, storing the parameters into a cloud database after the parameters are approved, and returning the parameters to the field workers for re-acquisition if the parameters are not approved;

the foreground parameter modification module is used for modifying the acquired key parameters of the electrolytic cell construction by field workers through the mobile terminal;

and the foreground parameter query module is used for inquiring the acquired construction key parameters of the electrolytic cell by field workers through the mobile terminal by utilizing various combination conditions.

In the electrolysis bath key construction parameter acquisition system based on mobile application, the electrolysis bath construction parameter background management subsystem runs in a public cloud server.

In the system for acquiring the key construction parameters of the electrolytic cell based on the mobile application, the foreground acquisition subsystem of the construction parameters of the electrolytic cell operates on a mobile terminal.

In the system for collecting the key construction parameters of the electrolytic cell based on the mobile application, the key construction parameters comprise: key part photos, acquisition time, material manufacturers, construction manufacturers, responsible persons and constructors.

In the mobile application-based acquisition system for the key construction parameters of the electrolytic cell, the multiple derivation formats comprise: database, EXCEL table, CSV document.

The invention also provides a method for acquiring the key construction parameters of the electrolytic cell based on mobile application, which comprises the following steps:

step 1: different users are allocated with different use rights;

step 2: setting the types of parameters required to be collected by different electrolytic aluminum plants in a user-defined manner;

and step 3: according to the set user authority, the mobile terminal user realizes login by inputting a user name and a password:

and 4, step 4: the method comprises the following steps of (1) completing the collection work of key construction parameters of different electrolytic cells by utilizing a mobile terminal on site according to the type of parameters to be collected which are set by a user;

and 5: auditing the acquired key construction parameters of the electrolytic cell, storing the parameters into a cloud database after the parameters are approved, and returning the parameters to field personnel for re-acquisition if the parameters are not approved;

step 6: modifying and re-examining the collected key parameters of the electrolytic cell construction;

and 7: after the construction parameters of the electrolytic cell are collected and audited, the relevant parameters are counted, summarized and analyzed;

and 8: inquiring the collected key parameters of the electrolytic cell construction by utilizing various combination conditions through a PC (personal computer) or a mobile terminal;

and step 9: and (4) exporting the required key construction parameters of the electrolytic cell in a required format.

The invention provides a system and a method for collecting key construction parameters of an electrolytic cell based on mobile application, which solve the problem that key construction information cannot be digitalized due to the lack of an information network, a hardware system and a software system in the construction process of the electrolytic cell on one hand, and provide an information basis for realizing the full life cycle management of the electrolytic cell and support for the implementation of equipment management in an MES (manufacturing execution system) of an electrolytic aluminum plant on the other hand.

Drawings

FIG. 1 is a block diagram of an electrolytic cell key construction parameter acquisition system based on mobile application of the present invention;

FIG. 2 is a flow chart of the method for collecting the key construction parameters of the electrolytic cell based on the mobile application.

Detailed Description

FIG. 1 shows a system for collecting key construction parameters of an electrolytic cell based on mobile application, which comprises: an electrolytic bath construction parameter background management subsystem 1 and an electrolytic bath construction parameter foreground acquisition subsystem 2. The electrolytic bath construction parameter background management subsystem 1 is used for customizing the types of parameters to be acquired and managing the acquired parameters at the PC terminal; the electrolytic bath construction parameter foreground acquisition subsystem 2 is used for acquiring key construction parameters of the electrolytic bath and managing the parameters by using the mobile terminal. The electrolytic tank construction parameter background management subsystem 1 and the electrolytic tank construction parameter foreground acquisition subsystem 2 carry out information interaction through an operator network. The electrolytic cell construction parameter background management subsystem 1 runs at the public cloud. The electrolytic bath construction parameter foreground acquisition subsystem 2 runs on the mobile terminal. The key construction parameters include: key part photos, acquisition time, material manufacturers, construction manufacturers, responsible persons, construction personnel and the like.

The electrolytic bath construction parameter background management subsystem 1 comprises: the system comprises a user management module 11, a parameter setting module 12, a background parameter auditing module 13, a background parameter modifying module 14, a parameter counting module 15, a background parameter inquiring module 16 and a parameter exporting module 17.

The user management module 11 is used for assigning different usage rights to different users. Because the electrolytic cell construction acquisition system operating in the cloud faces a plurality of electrolytic aluminum plants and different cell types, strict user management is required to distinguish the safety of electrolytic cell data of each electrolytic aluminum plant. Each electrolytic aluminum plant connected to the cloud can only upload the key construction parameters of the electrolytic cell of the plant according to the system configuration condition, and only has the right to check the content in the corresponding authority.

The parameter setting module 12 is used for setting the types of parameters required to be collected by different electrolytic aluminum plants in a user-defined manner. Because the electrolytic cell construction acquisition system operating in the cloud faces multiple electrolytic aluminum plants and multiple different cell types, each cell type can be set for what kind of parameters need to be acquired, and the self-defined setting needs to be carried out in the module.

The background parameter auditing module 13 is used for auditing the electrolysis bath key construction parameters acquired on site through the PC end, storing the parameters into the cloud database after the parameters are approved, and returning the parameters to the site personnel for re-acquisition if the parameters do not pass the database.

The background parameter modification module 14 is used for modifying the key parameters of the electrolytic bath construction through the PC end. After the construction parameters of the electrolytic cell are finished, the parameters such as the acquisition time, materials, manufacturers, responsible persons, constructors and the like can be modified at the PC end through the module under the condition of not passing the audit.

And after the parameter statistics module 15 finishes the acquisition of the construction parameters of the electrolytic cell, performing statistics, summarization and analysis on related parameters.

The background parameter query module 16 is configured to query the acquired key parameters of the electrolytic cell construction by using various combination conditions through the PC terminal, for example: time, materials, manufacturers, responsible persons, constructors and the like, and related paper documents can be imported and printed.

The parameter derivation module 17 is used for deriving the key construction parameters of the electrolytic cell and providing a plurality of derivation formats. The final objective of the acquisition of the construction parameters of the electrolytic cell is to provide a basis for the fine management of the electrolytic cell in the later stage of an electrolytic aluminum factory, and the data acquired by the system in the later stage must be imported into a production management system (MES) of the electrolytic aluminum factory or a Manufacturing Execution System (MES) of the electrolytic aluminum factory, so that the parameter export module 17 provides a data export interface to export various data formats, such as a database, an EXCEL table, a CSV document and the like.

The electrolytic tank construction parameter foreground acquisition subsystem 2 comprises: a user login module 21, a parameter acquisition module 22, a foreground parameter auditing module 23, a foreground parameter modifying module 24 and a foreground parameter inquiring module 25.

And the user login module 21 is used for realizing login by the mobile terminal user in a mode of inputting a user name and a password according to the set user authority.

And the parameter acquisition module 22 is used for completing acquisition work of key construction parameters of different electrolytic cells on site by using the mobile terminal according to the type of the parameters to be acquired, which are set by a user in a self-defined way. Because the information to be collected is already set by the parameter setting module 12 of the electrolytic cell construction parameter background management subsystem 1 located at the cloud, the staff can complete the collection of the key construction parameters of different electrolytic cells by using the mobile terminal according to the prompt, and the collection period comprises numbers, key part photos, material manufacturers, construction manufacturers, responsible persons and the like.

And the foreground parameter auditing module 23 is used for auditing the acquired key construction parameters of the electrolytic cell by field workers through the mobile terminal, storing the parameters into a cloud database after the parameters are approved, and returning the parameters to the field workers for re-acquisition if the parameters are not approved.

And the foreground parameter modification module 24 is used for modifying the acquired electrolysis bath construction key parameters by field workers through the mobile terminal. After the construction parameters of the electrolytic cell are finished, the parameters such as acquisition time, materials, manufacturers, responsible persons, constructors and the like can be modified through the foreground parameter modification module 24 of the mobile terminal under the condition of not passing the audit.

And the foreground parameter query module 25 is used for field workers to query the acquired electrolytic cell construction key parameters by using various combination conditions through the mobile terminal.

As shown in FIG. 2, the method for collecting the key construction parameters of the electrolytic cell based on the mobile application comprises the following steps:

step 1: different users are allocated with different use rights;

step 2: setting the types of parameters required to be collected by different electrolytic aluminum plants in a user-defined manner;

and step 3: according to the set user authority, the mobile terminal user realizes login by inputting a user name and a password:

and 4, step 4: the method comprises the following steps of (1) completing the collection work of key construction parameters of different electrolytic cells by utilizing a mobile terminal on site according to the type of parameters to be collected which are set by a user;

and 5: auditing the acquired key construction parameters of the electrolytic cell, storing the parameters into a cloud database after the parameters are approved, and returning the parameters to field personnel for re-acquisition if the parameters are not approved;

step 6: modifying and re-examining the collected key parameters of the electrolytic cell construction;

and 7: after the construction parameters of the electrolytic cell are collected and audited, the relevant parameters are counted, summarized and analyzed;

and 8: inquiring the collected key parameters of the electrolytic cell construction by utilizing various combination conditions through a PC (personal computer) or a mobile terminal;

and step 9: and (4) exporting the required key construction parameters of the electrolytic cell in a required format.

The electrolytic cell construction parameter background management subsystem 1 is deployed at the cloud, constructors download an electrolytic cell construction parameter foreground acquisition subsystem 2 running at a mobile end through an operator network by utilizing mobile equipment and install the electrolytic cell construction parameter foreground acquisition subsystem on the mobile equipment, when electrolytic cell construction of an electrolytic aluminum plant starts, field users log in a mobile APP through a user name and a password which are distributed, according to the prompting of related information such as an aluminum plant name, a workshop name, a work area name and a cell number, information needing to be acquired in the electrolytic cell construction process is filled in and then stored and sent to an auditor, the auditor can store the information in a database located at the cloud end through the information, and if the information is not filled in again according to the steps. After the construction information of all the electrolytic cells is collected, related statistical information can be inquired at the PC end or the mobile end, and the information can be exported to other systems, such as MES, ERP system and the like. The manager of the aluminum factory can inquire the key information of the construction process of the electrolytic cell at any time after the electrolytic cell is put into operation.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, which is defined by the appended claims.

Claims (8)

1. A system for collecting key construction parameters of an electrolytic cell based on mobile application is characterized by comprising the following components: an electrolytic bath construction parameter background management subsystem and an electrolytic bath construction parameter foreground acquisition subsystem which perform information interaction through an operator network;

the electrolytic bath construction parameter background management subsystem is used for customizing the types of parameters to be acquired and managing the acquired parameters at the PC terminal; the electrolytic cell construction parameter foreground acquisition subsystem is used for acquiring key construction parameters of the electrolytic cell and managing the parameters by using the mobile terminal.

2. The system for collecting critical construction parameters of an electrolytic cell based on mobile application as claimed in claim 1, wherein said background management subsystem of construction parameters of an electrolytic cell comprises:

the user management module is used for distributing different use authorities to different users;

the parameter setting module is used for setting the types of parameters required to be collected by different electrolytic aluminum plants in a user-defined manner;

the background parameter auditing module is used for auditing the electrolysis bath key construction parameters acquired on site through the PC end, storing the parameters into the cloud database after the parameters are approved, and returning the parameters to the site personnel for re-acquisition if the parameters do not pass the database;

the background parameter modification module is used for modifying the key parameters of the electrolytic bath construction through the PC end;

the parameter statistical module is used for performing statistics, summarization and analysis on related parameters after the acquisition of the construction parameters of the electrolytic cell is completed;

the background parameter query module is used for querying the acquired construction key parameters of the electrolytic cell by utilizing various combination conditions through the PC terminal;

and the parameter derivation module is used for deriving the key construction parameters of the electrolytic cell and providing a plurality of derivation formats.

3. The system for collecting critical construction parameters of an electrolytic cell based on mobile application as claimed in claim 1, wherein the foreground collection subsystem of construction parameters of the electrolytic cell comprises:

the user login module is used for realizing login by a mobile terminal user in a mode of inputting a user name and a password according to the set user authority:

the parameter acquisition module is used for completing acquisition work of key construction parameters of different electrolytic cells on site by utilizing the mobile terminal according to the type of the parameters to be acquired which are set by a user;

the foreground parameter auditing module is used for auditing the acquired key construction parameters of the electrolytic cell by field workers through the mobile terminal, storing the parameters into a cloud database after the parameters are approved, and returning the parameters to the field workers for re-acquisition if the parameters are not approved;

the foreground parameter modification module is used for modifying the acquired key parameters of the electrolytic cell construction by field workers through the mobile terminal;

and the foreground parameter query module is used for inquiring the acquired construction key parameters of the electrolytic cell by field workers through the mobile terminal by utilizing various combination conditions.

4. The system for collecting the key construction parameters of the electrolytic cell based on the mobile application as claimed in claim 1 or 2, wherein the electrolytic cell construction parameter background management subsystem runs on a public cloud server.

5. The system for collecting the key construction parameters of the electrolytic cell based on the mobile application as claimed in claim 1 or 3, wherein the foreground collection subsystem of the construction parameters of the electrolytic cell is operated in a mobile terminal.

6. The mobile application based electrolytic cell critical construction parameter acquisition system of claim 1 wherein the critical construction parameters include: key part photos, acquisition time, material manufacturers, construction manufacturers, responsible persons and constructors.

7. The mobile application-based acquisition system for key construction parameters of an electrolytic cell of claim 2, wherein the plurality of derivation formats comprises: database, EXCEL table, CSV document.

8. A method for collecting key construction parameters of an electrolytic cell based on mobile application is characterized by comprising the following steps:

step 1: different users are allocated with different use rights;

step 2: setting the types of parameters required to be collected by different electrolytic aluminum plants in a user-defined manner;

and step 3: according to the set user authority, the mobile terminal user realizes login by inputting a user name and a password:

and 4, step 4: the method comprises the following steps of (1) completing the collection work of key construction parameters of different electrolytic cells by utilizing a mobile terminal on site according to the type of parameters to be collected which are set by a user;

and 5: auditing the acquired key construction parameters of the electrolytic cell, storing the parameters into a cloud database after the parameters are approved, and returning the parameters to field personnel for re-acquisition if the parameters are not approved;

step 6: modifying and re-examining the collected key parameters of the electrolytic cell construction;

and 7: after the construction parameters of the electrolytic cell are collected and audited, the relevant parameters are counted, summarized and analyzed;

and 8: inquiring the collected key parameters of the electrolytic cell construction by utilizing various combination conditions through a PC (personal computer) or a mobile terminal;

and step 9: and (4) exporting the required key construction parameters of the electrolytic cell in a required format.

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