CN116225460B - Method for simplifying software deployment of operators in industrial personal computers - Google Patents

Abstract

The invention discloses a method for simplifying software deployment of operators in an industrial personal computer, which comprises the following steps: first, writing an inlet program: summarizing all software to be installed to be deployed into one interface, deploying by adopting a graphical interface, canceling keyboard input operation, converting various deployment commands into single installation buttons, and integrating script commands of the software to be installed by each installation button in the interface; second, packaging the portal program and the software catalogue to be installed: and placing all the software to be installed in the planned catalogue, and designating the relative path of the catalogue in the portal program. According to the invention, all software is deployed by adopting a graphical interface, the keyboard input operation is canceled, various deployment commands are converted into a single button, the operation complexity of non-professional staff is reduced, a unified entry is provided, and operators do not need to search the positions of various software, so that the abnormal operation of the software caused by error parameters can be prevented, and the system breakdown caused by error operation is prevented.

Description

Method for simplifying software deployment of operators in industrial personal computers

Technical Field

The invention relates to the technical field of software deployment and equipment manufacturing, in particular to a method for simplifying an operator to deploy software in an industrial personal computer.

Background

In the tire building equipment in the prior art, an industrial personal computer is usually a touch screen integrated machine, a machine platform is not additionally provided with a keyboard and a mouse, and all operations are completed by touch clicking. And only click operations, drag and drag operations, etc. are difficult to achieve. The industrial personal computer is independently configured in each machine station and is embedded in tire building equipment and cannot move. The industrial personal computer is different from the server, and the industrial personal computer directly controls the production equipment without accessing any other network, so that the industrial personal computer cannot log in remotely, can only operate the industrial personal computer on site, does not need to stably operate for a long time like the server, and needs to be restarted from time to time. Whereas software deployment in tire building equipment typically has several features: all operations are done by non-professional personnel; a plurality of software with associated dependencies needs to be deployed; key data is stored by a professional database; the entries of the various software are different; incorrect operation results in the device overall crashing affecting production.

At present, software deployment is often in a document type and a script type, a professional technician writes, installs and deploys a document, the document comprises an installation step, the document relates to software and an operation command, and the document is handed over to an operator, and the operator deploys according to the software and the steps mentioned in the document; compared with the document type, the script type is characterized in that a professional technician writes the operation command into a corresponding script, the script is handed over to an operator, and the operator executes the script according to the prompt to perform keyboard entry type deployment. The existing software deployment mode mainly has the following disadvantages.

1. Too many scripts and software have no unified portal resulting in an operator's inability to go to hand.

2. Important parameters are determined by non-professionals, resulting in reduced software performance or inoperability.

3. Cumbersome steps or commands result in an operator not being able to deploy smoothly.

4. Non-limiting incorrect operation causes a system crash resulting in a production break.

Disclosure of Invention

The invention aims to solve the defect that various errors are easy to occur due to multiple software inlets and multiple correlation characteristics in the deployment process of operators in the existing industrial personal computer software deployment in tire building equipment, and provides a method for simplifying the deployment of the operators in the industrial personal computer.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a method for simplifying the deployment of software by operators in an industrial personal computer, comprising the steps of:

first, writing an inlet program: summarizing all software to be installed to be deployed into one interface, deploying by adopting a graphical interface, canceling keyboard input operation, converting various deployment commands into single installation buttons, and integrating script commands of the software to be installed by each installation button in the interface;

second, packaging the portal program and the software catalogue to be installed: placing all software to be installed in the planned catalogs, specifying the relative paths of the catalogs in the portal program, and packaging and handing over the portal program and the software catalogs to an operator for installation before deployment;

third, installing an entry program: the operator needs to copy the combination of the folders of the portal program and the software to be installed into each industrial personal computer by using the portable data storage medium for installation;

fourthly, running portal program deployment software: opening the running portal program, clicking a corresponding installation button in an interface of the portal program, executing a script command of the software to be installed, which is integrated with the installation button, by the portal program, and completing installation and deployment of the corresponding software to be installed.

As a further improvement of the present invention, the single button in the first step is rectangular in shape, and the operation form of the single button is a click operation.

As a further improvement of the present invention, the portal program in the second step cannot be integrated and packaged with the software to be installed, and the relative path of each software to be installed is specified in the portal program, and the corresponding software is replaced each time the software is updated.

As a further improvement of the invention, the high-authority operation is executed when the portal program is operated in the fourth step, whether the portal program is operated with the identity of an administrator or not is judged before the portal program is started, and if the portal program is not operated with the identity of the administrator, the portal program exits the program after prompting information.

As a further improvement of the present invention, in the fourth step, when the install button is clicked, the portal program checks whether the file required for the corresponding software to be installed exists by calling the corresponding system library, for example, the os. Path module of python searches whether the software to be installed exists in the relative path planned in the portal program, and if not, prompts an error message.

As a further improvement of the invention, before the software is installed and deployed in the fourth step, the portal program should judge whether the software is installed before installing the software, if so, the portal program needs to stop the operation and prompt for repeated installation information.

As a further improvement of the invention, in the fourth step, before the software is installed and deployed, the portal program judges whether the software is complete or not by judging the md5 value of the software to be installed, and if the software is incomplete, the deployment is stopped and error information is prompted.

As a further improvement of the invention, in the fourth step, before the software is installed and deployed, whether other software which depends on the current task is installed is judged, if not, the current operation is stopped, and information that the dependent software is not installed is prompted.

In the fourth step, the parameter configuration of the software to be installed is changed in the process of software installation and deployment, the parameter configuration of the software to be installed is appointed in an entry program in advance or a system library is called through the entry program, the corresponding parameter is dynamically appointed after calculation is obtained, and the parameter configuration of the software to be installed comprises an account number password, a name, an address and a software installation position of a database and a memory required by the software.

In the fourth step, during the software installation and deployment process, the portal program makes an exception judgment, stops deployment after the portal program captures the exception, and prompts exception information.

The invention has the beneficial effects that:

1. all software is deployed by adopting a graphical interface, the keyboard input operation is canceled, various deployment commands are converted into a single button, and the operation complexity of non-professional staff is reduced.

2. A unified portal is provided, and operators do not need to search for the position of various software.

3. Preventing the software from running abnormally due to the error parameters.

4. Preventing a system crash caused by a wrong operation.

Drawings

FIG. 1 is a schematic interface diagram of an portal process of the present invention;

FIG. 2 is a schematic diagram of a process for performing high-rights operations while running an portal program in accordance with the present invention;

FIG. 3 is a schematic diagram of the process of detecting the presence of software and determining the integrity of the software prior to the installation and deployment of the software according to the present invention;

FIG. 4 is a schematic diagram of a process of modifying a parameter configuration of software to be installed during a software installation and deployment process according to the present invention;

FIG. 5 is a schematic diagram of the process of performing anomaly determination during the software installation and deployment process according to the present invention;

FIG. 6 is a schematic diagram of a process of determining whether other software on which a current task depends is installed before software installation and deployment;

FIG. 7 is a schematic diagram of a process for determining whether software has been installed before the software is installed and deployed according to the present invention;

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Example 1

A method for simplifying the deployment of software by operators in an industrial personal computer, comprising the steps of:

first, writing an inlet program: summarizing all software to be installed to be deployed into one interface, deploying by adopting a graphical interface, canceling keyboard input operation, converting various deployment commands into single installation buttons, and integrating script commands of the software to be installed by each installation button in the interface;

second, packaging the portal program and the software catalogue to be installed: placing all software to be installed in the planned catalogs, specifying the relative paths of the catalogs in the portal program, and packaging and handing over the portal program and the software catalogs to an operator for installation before deployment;

third, installing an entry program: the operator needs to copy the combination of the folders of the portal program and the software to be installed into each industrial personal computer by using the portable data storage medium for installation;

fourthly, running portal program deployment software: opening the running portal program, clicking a corresponding installation button in an interface of the portal program, executing a script command of the software to be installed, which is integrated with the installation button, by the portal program, and completing installation and deployment of the corresponding software to be installed.

In the present invention, referring to fig. 1, the single button in the first step is rectangular in shape, and the operation mode of the single button is a click operation.

In the second step, the portal program cannot be integrated and packaged with the software to be installed, the relative path of each software to be installed is specified in the portal program, and the corresponding software is replaced when the software is updated each time.

Referring to fig. 2, in the fourth step, when the portal program is running, the high-authority operation is executed, before the portal program is started, whether the portal program is running in the identity of the administrator is judged, if not, the portal program is stopped after prompting information.

Referring to fig. 3, in the fourth step, when the install button is clicked, the portal program checks whether a file required for the corresponding software to be installed exists by calling the corresponding system library, for example, the os.path module of python searches whether the software to be installed exists in the relative path planned in the portal program, and if not, prompts an error message; in the fourth step, before the software is installed and deployed, the portal program judges whether the software is complete or not by judging the md5 value of the software to be installed, and if the software is incomplete, the deployment is stopped and error information is prompted.

Referring to fig. 7, in the fourth step, before the software is installed and deployed, the portal program should first determine whether the software has been installed before installing the software, if so, stop the operation and prompt for repeated installation information.

Referring to fig. 4, in the fourth step, in the process of installing and deploying the software, the parameter configuration of the software to be installed is changed, the parameter configuration of the software to be installed is designated in the portal program in advance or a system library is called through the portal program, the corresponding parameter is dynamically designated after calculation, and the parameter configuration of the software to be installed includes an account number password, a name, an address, a software installation position of the database and a memory required by the software.

In the fourth step, before the software is installed and deployed, it is first determined whether the other software that depends on the current task is installed, if not, the current operation needs to be stopped and the dependent software is prompted to have information not yet installed.

In the third embodiment, referring to fig. 5, in comparison with the second embodiment, in the fourth step, during the software installation and deployment process, the portal program performs an exception judgment, and stops deployment after capturing the exception, and prompts exception information.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (3)

1. A method for simplifying the deployment of software by an operator in an industrial personal computer, comprising the steps of:

first, writing an inlet program: summarizing all software to be installed to be deployed into one interface, deploying by adopting a graphical interface, canceling keyboard input operation, converting various deployment commands into single installation buttons, and integrating script commands of the software to be installed by each installation button in the interface;

second, packaging the portal program and the software catalogue to be installed: placing all software to be installed in the planned catalogs, specifying the relative paths of the catalogs in the portal program, and packaging and handing over the portal program and the software catalogs to an operator for installation before deployment;

third, installing an entry program: the operator needs to copy the combination of the folders of the portal program and the software to be installed into each industrial personal computer by using the portable data storage medium for installation;

fourthly, running portal program deployment software: opening an operating portal program, clicking a corresponding installation button in an interface of the portal program, executing a script command of the software to be installed, which is integrated with the installation button, by the portal program, and completing installation and deployment of the corresponding software to be installed;

in the second step, the portal program cannot be integrated and packaged with the software to be installed, the relative path of each piece of software to be installed is specified in the portal program, and corresponding software is replaced when the software is updated each time; in the fourth step, when the installation button is clicked, the portal program checks whether the file required by the corresponding software to be installed exists by calling the corresponding system library, for example, an os.path module of python searches whether the software to be installed exists in the planned relative path in the portal program, and if the software to be installed does not exist, the portal program prompts error information; before installing and deploying the software, the portal program should judge whether the software is installed before installing the software, if so, the portal program needs to stop the operation and prompt for repeated installation information; before the software is installed and deployed, judging whether the software is complete or not by judging the md5 value of the software to be installed by the portal program, and stopping deployment and prompting error information if the software is incomplete; before the software is installed and deployed, judging whether other software depending on the current task is installed or not, if not, stopping the current operation and prompting that the dependent software has not been installed; in the fourth step, in the software installation and deployment process, changing the parameter configuration of the software to be installed, wherein the parameter configuration of the software to be installed is designated in an entry program in advance or a system library is called through the entry program, the corresponding parameter is dynamically designated after calculation is obtained, and the parameter configuration of the software to be installed comprises an account number password, a name, an address and a software installation position of a database and a memory required by the software; in the fourth step, during the software installation and deployment process, the portal program performs exception judgment, and stops deployment after capturing the exception, and prompts exception information.

2. The method for simplifying software deployment in an industrial personal computer as set forth in claim 1, wherein the single button in the first step is rectangular in shape and the single button is operated in the form of a click operation.

3. The method for simplifying software deployment in an industrial personal computer according to claim 1, wherein the fourth step is to execute a high-authority operation when running an entry program, and the entry program should determine whether to run with an administrator identity before starting, and if not, exit the program after prompting information.