CN116523274B

CN116523274B - Computer remote production management method and system based on Internet of things technology

Info

Publication number: CN116523274B
Application number: CN202310809144.0A
Authority: CN
Inventors: 黄异寻; 黄河
Original assignee: Chengdu Predatory Bird Technology Co ltd
Current assignee: Chengdu Predatory Bird Technology Co ltd
Priority date: 2023-07-04
Filing date: 2023-07-04
Publication date: 2023-10-27
Anticipated expiration: 2043-07-04
Also published as: CN116523274A

Abstract

The application relates to a computer remote production management method and system based on the Internet of things technology, comprising the steps of obtaining custom demand data of standard computer components in a computer standard component frame, which is sent by a current computer production demand main body to a computer production management main body, generating a current recommended component, and displaying the current recommended component to the current computer production demand main body; acquiring component modification data, generating an actual selection component and a standard assembly step, and acquiring a custom assembly step to generate a current actual assembly step; and acquiring an important monitoring step of calibrating a current actual assembly step by a current computer production demand main body, controlling a preset internet of things monitoring module to record important monitoring data of a computer production management main body when the important monitoring step is executed, and sending an assembled computer and the important monitoring data to the current computer production demand main body after the assembly is completed. The application ensures the reliable management and monitoring of the individual customized computer production.

Description

Computer remote production management method and system based on Internet of things technology

Technical Field

The application relates to the technical field of computer production, in particular to a computer remote production management method and system based on the internet of things technology.

Background

The computer is a modern electronic computing machine for high-speed computing, can perform numerical computation and logic computation, has a memory function, and is a modern intelligent electronic device capable of automatically and high-speed processing mass data according to program operation.

At present, the production management of a computer is crucial, for example, an intelligent manufacturing system for computer production is disclosed in the patent application number CN201910745438.5, and comprises a basic data module, a production planning module, a production scheduling module, a quality management module, a manufacturing resource module, an employee management module, a warehouse management module, a comprehensive report module, a system management module, a dynamic data module and a mobile terminal system. The dynamic data module comprises a fund data management module, an energy data management module, a market demand data management module and an after-sales data management module, wherein a computer production intelligent manufacturing knowledge base is built through the data of the dynamic data module, and the production planning module carries out intelligent learning on the knowledge base.

It can be seen that the above solution, although realizing intelligent optimization design of computer manufacturing content, still has drawbacks, such as being only suitable for unified production management of a common computer, and has the problem that reliable customized production management of a computer cannot be realized.

Disclosure of Invention

Accordingly, in order to solve the above-mentioned problems, it is necessary to provide a method and a system for managing remote production of a computer based on the internet of things technology, which can realize reliable customized production of the computer.

The technical scheme of the invention is as follows:

a computer remote production management method based on the internet of things technology, the method comprising:

acquiring custom demand data of each standard computer component in a computer standard component frame, which is sent by a current computer production demand main body to a computer production management main body, matching the custom demand data from a standard component database to generate a current recommended component, and displaying the current recommended component to the current computer production demand main body; acquiring component modification data of the current computer production demand main body on the current recommended component, generating an actual selected component and a standard assembly step according to the component modification data, acquiring a custom assembly step of the current computer production demand main body on the actual selected component, adjusting the custom assembly step according to the standard assembly step, and generating a current actual assembly step; the key monitoring step of the current computer production demand main body for calibrating the current actual assembly step is obtained, the current actual assembly step and the key monitoring step are sent to the computer production management main body, and the computer production management main body is instructed to carry out computer assembly; and controlling a preset internet of things monitoring module to record key monitoring data of the computer production management main body when the key monitoring step is executed, and sending the assembled computer and the key monitoring data to the current computer production demand main body after the assembly is completed.

Specifically, the current actual assembly step includes a plurality of refinement assembly steps; each of the refinement assembly steps includes a refinement assembly structure;

the key monitoring step of the current computer production demand main body for calibrating the current actual assembly step is obtained, the current actual assembly step and the key monitoring step are sent to the computer production management main body, and the computer production management main body is instructed to carry out computer assembly; the method specifically comprises the following steps:

obtaining a calibrated refinement assembly step of the current computer production demand main body in the current actual assembly step, and setting the calibrated refinement assembly step as a key monitoring step; displaying the refined assembly structure corresponding to the key monitoring step to the current computer production demand main body, acquiring the refined assembly structure selected by the current computer production demand main body, and setting the selected refined assembly structure as a current marking structure; acquiring an initial setting label set by the current computer production demand main body on the current marking structure; acquiring a structure assembly requirement of the current marking structure, adjusting the initial setting label according to the structure assembly requirement, and generating a current setting label after adjustment; acquiring an actual fixing mode of the current computer production demand main body on the current set label, and acquiring a label fixing course corresponding to the actual fixing mode; and sending the current actual assembly step, the key monitoring step, the current marking structure, the current setting label, the actual fixing mode and the label fixing course to the computer production management main body and indicating the computer production management main body to carry out computer assembly.

Specifically, a preset internet of things monitoring module is controlled to record key monitoring data of the computer production management main body when the key monitoring step is executed, and an assembled computer and the key monitoring data are sent to the current computer production demand main body after the assembly is completed; the method specifically comprises the following steps:

acquiring a start trigger operation of the computer production management main body on the Internet of things monitoring module, and generating an assembly start prompt according to the start trigger operation, wherein the assembly start prompt is used for reminding the computer production management main body to assemble according to the current actual assembly step; controlling the internet of things monitoring module to monitor the computer production management main body, and responding to a second triggering operation of the internet of things monitoring module by the computer production management main body when the key monitoring step is executed, so as to generate key video mark points; responding to a third triggering operation of the internet of things monitoring module when the computer production management main body assembles the current marking structure, and generating a key structure marking point; according to the label fixing course, the computer production management main body instructs the entity setting label corresponding to the current setting label to be positioned at the current marking structure according to the actual fixing mode, and simultaneously informs the internet of things monitoring module to record and generates a label setting marking point; after the computer production management main body assembles the computer, generating assembled complete record data; marking the assembled complete record data according to the key video mark points, the key structure mark points and the tag setting mark points, and generating key monitoring data; sending the assembled computer and the key monitoring data to the current computer production requirement main body.

Specifically, user-defined demand data of each standard computer component in a computer standard component frame, which is sent by a current computer production demand main body to a computer production management main body, are obtained, matching is carried out from a standard component database according to the user-defined demand data, a current recommended component is generated, and the current recommended component is displayed to the current computer production demand main body; the method specifically comprises the following steps:

acquiring a computer component demand indication sent by the current computer production demand main body to a computer production management main body; generating component demand characteristics according to the computer component demand instructions, and acquiring corresponding standard computer components according to the component demand characteristics, wherein one component demand characteristic corresponds to one standard computer component: generating a computer basic frame according to each acquired standard computer component, expanding the computer basic frame, and generating a computer standard component frame after the expansion is completed; acquiring custom demand data of a computer standard component frame, which is sent to a computer production management main body by the current computer production demand main body; comparing the custom demand data with standard component parameter data in a standard component database, generating a current recommended component, and displaying the current recommended component to the current computer production demand main body.

Specifically, component modification data of the current computer production demand main body on the current recommended component is obtained, an actual selection component and a standard assembly step are generated according to the component modification data, a custom assembly step of the current computer production demand main body on the actual selection component is obtained, and the custom assembly step is adjusted according to the standard assembly step to generate a current actual assembly step; the method specifically comprises the following steps:

acquiring component modification data of the current computer production demand main body on the current recommended component, adjusting the current recommended component according to the component modification data, and generating an actual selection component; acquiring branch assembly steps matched with the actual selection components from a pre-stored standard assembly step database according to the actual selection components; generating a standard assembly step according to each branch assembly step; acquiring a custom assembly step of the current computer production demand main body on the actual selected component, and judging whether the standard assembly step conflicts with the custom assembly step; if the user-defined assembly step is judged to be not in conflict, the user-defined assembly step is set as a current actual assembly step; and if the conflict is judged, correcting the custom assembly step according to the standard assembly step and generating the current actual assembly step.

Specifically, a computer remote production management system based on internet of things technology, the system includes:

the recommendation component generation module is used for acquiring the custom demand data of each standard computer component in the computer standard component frame, which is sent by the current computer production demand main body to the computer production management main body, matching the custom demand data from the standard component database, generating a current recommendation component, and displaying the current recommendation component to the current computer production demand main body;

the assembly step generating module is used for acquiring component modification data of the current computer production demand main body on the current recommended component, generating an actual selection component and a standard assembly step according to the component modification data, acquiring a custom assembly step of the current computer production demand main body on the actual selection component, adjusting the custom assembly step according to the standard assembly step and generating a current actual assembly step;

the computer assembly indicating module is used for acquiring a key monitoring step of the current computer production demand main body for calibrating the current actual assembly step, sending the current actual assembly step and the key monitoring step to the computer production management main body and indicating the computer production management main body to carry out computer assembly;

The monitoring data sending module is used for controlling a preset internet of things monitoring module to record key monitoring data of the computer production management main body when the key monitoring step is executed, and sending the assembled computer and the key monitoring data to the current computer production demand main body after the assembly is completed.

Specifically, the current actual assembly step includes a plurality of refinement assembly steps; each of the refinement assembly steps includes a refinement assembly structure; the computer assembly indicating module is also used for:

obtaining a calibrated refinement assembly step of the current computer production demand main body in the current actual assembly step, and setting the calibrated refinement assembly step as a key monitoring step; displaying the refined assembly structure corresponding to the key monitoring step to the current computer production demand main body, acquiring the refined assembly structure selected by the current computer production demand main body, and setting the selected refined assembly structure as a current marking structure; acquiring an initial setting label set by the current computer production demand main body on the current marking structure; acquiring a structure assembly requirement of the current marking structure, adjusting the initial setting label according to the structure assembly requirement, and generating a current setting label after adjustment; acquiring an actual fixing mode of the current computer production demand main body on the current set label, and acquiring a label fixing course corresponding to the actual fixing mode; transmitting the current actual assembly step, the key monitoring step, the current marking structure, the current setting tag, the actual fixing mode and the tag fixing course to the computer production management main body and indicating the computer production management main body to carry out computer assembly;

The monitoring data sending module is also used for: acquiring a start trigger operation of the computer production management main body on the Internet of things monitoring module, and generating an assembly start prompt according to the start trigger operation, wherein the assembly start prompt is used for reminding the computer production management main body to assemble according to the current actual assembly step; controlling the internet of things monitoring module to monitor the computer production management main body, and responding to a second triggering operation of the internet of things monitoring module by the computer production management main body when the key monitoring step is executed, so as to generate key video mark points; responding to a third triggering operation of the internet of things monitoring module when the computer production management main body assembles the current marking structure, and generating a key structure marking point; according to the label fixing course, the computer production management main body instructs the entity setting label corresponding to the current setting label to be positioned at the current marking structure according to the actual fixing mode, and simultaneously informs the internet of things monitoring module to record and generates a label setting marking point; after the computer production management main body assembles the computer, generating assembled complete record data; marking the assembled complete record data according to the key video mark points, the key structure mark points and the tag setting mark points, and generating key monitoring data; sending the assembled computer and the key monitoring data to the current computer production requirement main body.

Specifically, the recommendation component generation module monitors the data sending module and is further configured to:

acquiring a computer component demand indication sent by the current computer production demand main body to a computer production management main body; generating component demand characteristics according to the computer component demand instructions, and acquiring corresponding standard computer components according to the component demand characteristics, wherein one component demand characteristic corresponds to one standard computer component: generating a computer basic frame according to each acquired standard computer component, expanding the computer basic frame, and generating a computer standard component frame after the expansion is completed; acquiring custom demand data of a computer standard component frame, which is sent to a computer production management main body by the current computer production demand main body; comparing the custom demand data with standard component parameter data in a standard component database, generating a current recommended component, and displaying the current recommended component to the current computer production demand main body;

the assembly step generation module is further configured to: acquiring component modification data of the current computer production demand main body on the current recommended component, adjusting the current recommended component according to the component modification data, and generating an actual selection component; acquiring branch assembly steps matched with the actual selection components from a pre-stored standard assembly step database according to the actual selection components; generating a standard assembly step according to each branch assembly step; acquiring a custom assembly step of the current computer production demand main body on the actual selected component, and judging whether the standard assembly step conflicts with the custom assembly step; if the user-defined assembly step is judged to be not in conflict, the user-defined assembly step is set as a current actual assembly step; and if the conflict is judged, correcting the custom assembly step according to the standard assembly step and generating the current actual assembly step.

The computer equipment comprises a memory and a processor, wherein the memory stores a computer program, and the processor realizes the steps of the computer remote production management method based on the Internet of things technology when executing the computer program.

A computer readable storage medium having stored thereon a computer program which when executed by a processor implements the steps of the above-described method for remote production management of a computer based on internet of things.

The invention has the following technical effects:

according to the computer remote production management method and system based on the Internet of things technology, the custom demand data of each standard computer component in the computer standard component frame, which are sent by the current computer production demand main body to the computer production management main body, are sequentially acquired, matching is carried out from the standard component database according to the custom demand data, a current recommended component is generated, and the current recommended component is displayed to the current computer production demand main body; acquiring component modification data of the current computer production demand main body on the current recommended component, generating an actual selected component and a standard assembly step according to the component modification data, acquiring a custom assembly step of the current computer production demand main body on the actual selected component, adjusting the custom assembly step according to the standard assembly step, and generating a current actual assembly step; the key monitoring step of the current computer production demand main body for calibrating the current actual assembly step is obtained, the current actual assembly step and the key monitoring step are sent to the computer production management main body, and the computer production management main body is instructed to carry out computer assembly; the invention also enables the assembled computer and the key monitoring data to be sent to the current computer production demand main body after the assembly is finished, so that the current computer production demand main body is self-set with computer components, but does not need to be assembled, and meanwhile, the video monitoring on the assembly process ensures that the assembled computer is assembled by the self-selected components without self-assembly, thereby ensuring the reliable management and monitoring of personal customized computer production.

Drawings

FIG. 1 is a flow chart of a computer remote production management method based on the Internet of things technology in one embodiment;

FIG. 2 is a block diagram of a remote production management system for a computer based on Internet of things technology in one embodiment;

FIG. 3 is an internal block diagram of a computer device in one embodiment.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

In one embodiment, a terminal is provided for: acquiring custom demand data of each standard computer component in a computer standard component frame, which is sent by a current computer production demand main body to a computer production management main body, matching the custom demand data from a standard component database to generate a current recommended component, and displaying the current recommended component to the current computer production demand main body; acquiring component modification data of the current computer production demand main body on the current recommended component, generating an actual selected component and a standard assembly step according to the component modification data, acquiring a custom assembly step of the current computer production demand main body on the actual selected component, adjusting the custom assembly step according to the standard assembly step, and generating a current actual assembly step; the key monitoring step of the current computer production demand main body for calibrating the current actual assembly step is obtained, the current actual assembly step and the key monitoring step are sent to the computer production management main body, and the computer production management main body is instructed to carry out computer assembly; and controlling a preset internet of things monitoring module to record key monitoring data of the computer production management main body when the key monitoring step is executed, and sending the assembled computer and the key monitoring data to the current computer production demand main body after the assembly is completed.

The terminal may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices.

In one embodiment, as shown in fig. 1, there is provided a computer remote production management method based on the internet of things technology, the method comprising:

step S100: acquiring custom demand data of each standard computer component in a computer standard component frame, which is sent by a current computer production demand main body to a computer production management main body, matching the custom demand data from a standard component database to generate a current recommended component, and displaying the current recommended component to the current computer production demand main body;

in this embodiment, the method for remote production management of a computer based on the internet of things technology is mainly applied to a computer customization production process. The main body of the current computer production requirement is an individual or enterprise needing computer production, and the main body of the computer production management is a manufacturer for computer component preparation, computer assembly and production. In order to ensure that the personalized customization requirement of the current computer production requirement main body is met, definition requirement data of the current computer production requirement main body is firstly obtained, and the computer standard component frame is a complete frame of a computer, so that a user selects specific components according to the frame on the premise that the computer component frame is complete, namely the user firstly selects each component of the computer, and the user can specifically perform matching with a database according to respective definition parameters; and recommending each component matched with the custom parameters to the user.

Step S200: acquiring component modification data of the current computer production demand main body on the current recommended component, generating an actual selected component and a standard assembly step according to the component modification data, acquiring a custom assembly step of the current computer production demand main body on the actual selected component, adjusting the custom assembly step according to the standard assembly step, and generating a current actual assembly step;

step S300: the key monitoring step of the current computer production demand main body for calibrating the current actual assembly step is obtained, the current actual assembly step and the key monitoring step are sent to the computer production management main body, and the computer production management main body is instructed to carry out computer assembly;

step S400: and controlling a preset internet of things monitoring module to record key monitoring data of the computer production management main body when the key monitoring step is executed, and sending the assembled computer and the key monitoring data to the current computer production demand main body after the assembly is completed.

In this embodiment, in order to accurately obtain the components required by the main body of the current computer production requirement, and to meet the customization and modification of the main body of the current computer production requirement, so by obtaining the component modification data of the main body of the current computer production requirement on the current recommended component, generating an actual selection component and a standard assembly step according to the component modification data, and obtaining the custom assembly step of the main body of the current computer production requirement on the actual selection component, adjusting the custom assembly step according to the standard assembly step and generating a current actual assembly step, then, in order to meet the follow-up custom assembly of the main body of the current computer production requirement on the assembly computer, and ensuring that the main body of the current computer production requirement can be assembled according to the selected component, so by setting an important monitoring step, and sending the current actual assembly step and the important monitoring step to the main body of the computer production management, and instructing the main body of the computer production management to perform computer assembly, and simultaneously, in order to ensure that the main body of the current computer production requirement can monitor the assembly process, by using an internet of things monitoring technology, the internet of things monitoring module is further capable of performing video monitoring on the main body of the current computer production requirement on the main body of the current computer production management, and also can perform the important monitoring process by means of the video monitoring module when the internet of the main body of the current computer production management is capable of performing the important monitoring module and the important monitoring module is capable of performing the important monitoring on the main body assembly module based on the video monitoring module, the main body of the current computer production requirement sets the computer components by itself, but does not need to assemble the computer components, and meanwhile, the video monitoring on the assembly process ensures that the assembled computer is assembled by the selected components without assembling the computer by itself, thereby ensuring the management and monitoring of the reliable personalized computer production.

In one embodiment, the current actual assembly step comprises a plurality of refinement assembly steps; each of the refinement assembly steps includes a refinement assembly structure;

step S300: the key monitoring step of the current computer production demand main body for calibrating the current actual assembly step is obtained, the current actual assembly step and the key monitoring step are sent to the computer production management main body, and the computer production management main body is instructed to carry out computer assembly; the method specifically comprises the following steps:

step S310: obtaining a calibrated refinement assembly step of the current computer production demand main body in the current actual assembly step, and setting the calibrated refinement assembly step as a key monitoring step;

step S320: displaying the refined assembly structure corresponding to the key monitoring step to the current computer production demand main body, acquiring the refined assembly structure selected by the current computer production demand main body, and setting the selected refined assembly structure as a current marking structure;

step S330: acquiring an initial setting label set by the current computer production demand main body on the current marking structure;

step S340: acquiring a structure assembly requirement of the current marking structure, adjusting the initial setting label according to the structure assembly requirement, and generating a current setting label after adjustment;

Step S350: acquiring an actual fixing mode of the current computer production demand main body on the current set label, and acquiring a label fixing course corresponding to the actual fixing mode;

step S360: and sending the current actual assembly step, the key monitoring step, the current marking structure, the current setting label, the actual fixing mode and the label fixing course to the computer production management main body and indicating the computer production management main body to carry out computer assembly.

In this embodiment, the current actual assembly step actually includes a plurality of assembly steps, and the refined assembly step is a sub-step selected by the main body of the current computer production requirement in the current actual assembly step, considering that the main body of the current computer production requirement can select a monitoring step according to personal habits or requirements, so that each assembly step actually corresponds to an assembly structure, that is, each refined assembly step includes a refined assembly structure, and also in order to meet the monitoring requirements of the main body of the current computer production requirement, the refined assembly structure corresponding to the key monitoring step is displayed to the main body of the current computer production requirement, and the selected refined assembly structure is set as a current label structure, then an initial setting label set by the main body of the current computer production requirement is obtained, and then the structure assembly requirement of the current label structure is obtained, and one structure is actually assembled according to the structure assembly requirement, that each refined assembly step includes a refined assembly structure, and also in order to meet the monitoring requirements of the main body of the current computer production requirement, the refined assembly structure corresponding to the key monitoring step is displayed to the main body of the current computer production requirement, so that the selected refined assembly structure is set as a current label structure, and then the initial setting label set by the main body of the current label structure is obtained, and the initial setting label set by the current label is obtained, and the initial setting label set by the initial setting label is obtained.

Then, acquiring an actual fixing mode of the current computer production demand main body on the current set label, and acquiring a label fixing course corresponding to the actual fixing mode; finally, the current actual assembly step, the key monitoring step, the current marking structure, the current setting tag, the actual fixing mode and the tag fixing course are sent to the computer production management main body and instruct the computer production management main body to carry out computer assembly, so that the computer production management main body can meet the current marking structure related in the key monitoring step according to the current actual assembly step when in assembly, the entity tag corresponding to the current setting tag can be set at the current marking structure according to the tag fixing course in the actual fixing mode, and further whether the user can judge an original assembly computer of the user through the current marking structure, the current setting tag and the actual fixing mode during subsequent inspection is guaranteed, and further components and the assembly structure in the computer customization process can not be damaged.

It should be noted that, how to make and set the physical label and how to assemble the physical label should be known and set by the computer production management body, which is not an important point of protection of the present application, so the present application is not specifically described.

In one embodiment, step S400: controlling a preset internet of things monitoring module to record key monitoring data of the computer production management main body when the key monitoring step is executed, and sending the assembled computer and the key monitoring data to the current computer production demand main body after the assembly is completed; the method specifically comprises the following steps:

step S410: acquiring a start trigger operation of the computer production management main body on the Internet of things monitoring module, and generating an assembly start prompt according to the start trigger operation, wherein the assembly start prompt is used for reminding the computer production management main body to assemble according to the current actual assembly step;

step S420: controlling the internet of things monitoring module to monitor the computer production management main body, and responding to a second triggering operation of the internet of things monitoring module by the computer production management main body when the key monitoring step is executed, so as to generate key video mark points;

step S430: responding to a third triggering operation of the internet of things monitoring module when the computer production management main body assembles the current marking structure, and generating a key structure marking point;

step S440: according to the label fixing course, the computer production management main body instructs the entity setting label corresponding to the current setting label to be positioned at the current marking structure according to the actual fixing mode, and simultaneously informs the internet of things monitoring module to record and generates a label setting marking point;

Step S450: after the computer production management main body assembles the computer, generating assembled complete record data;

step S460: marking the assembled complete record data according to the key video mark points, the key structure mark points and the tag setting mark points, and generating key monitoring data;

step S470: sending the assembled computer and the key monitoring data to the current computer production requirement main body.

In this embodiment, in order to ensure that the current computer production requirement main body can acquire a reliable monitoring video, the start triggering operation of the computer production management main body on the internet of things monitoring module is acquired, an assembly start prompt is generated according to the start triggering operation, then the internet of things monitoring module is controlled to monitor the computer production management main body, a key video mark point is generated in response to the second triggering operation of the computer production management main body on the internet of things monitoring module when the key monitoring step is executed, the key video mark point is favorable for the subsequent marking of a complete video, the current computer production requirement main body is further improved to be more convenient when the monitoring video is observed, then a key structure mark point is generated in response to the third triggering operation of the computer production management main body on the internet of things monitoring module when the current mark structure is assembled, and then a label setting mark point is generated; then, after the computer production management main body assembles the computer, generating assembled complete record data; and finally, marking the assembled complete record data according to the key video mark points, the key structure mark points and the label setting mark points, and generating key monitoring data, thereby realizing the generation of the key monitoring data.

Therefore, through the refined layout of the key monitoring data, the complete record data of the assembly is marked according to the key video mark points, the key structure mark points and the tag setting mark points, the refined processing of the assembly video is realized, the monitoring in the assembly process is greatly improved, the main body in the current computer production requirement can confirm whether the assembly is qualified or not and meets the personalized customization requirement, and the reliability is greatly improved.

In one embodiment, step S100: acquiring custom demand data of each standard computer component in a computer standard component frame, which is sent by a current computer production demand main body to a computer production management main body, matching the custom demand data from a standard component database to generate a current recommended component, and displaying the current recommended component to the current computer production demand main body; the method specifically comprises the following steps:

step S110: acquiring a computer component demand indication sent by the current computer production demand main body to a computer production management main body;

step S120: generating component demand characteristics according to the computer component demand instructions, and acquiring corresponding standard computer components according to the component demand characteristics, wherein one component demand characteristic corresponds to one standard computer component:

Step S130: generating a computer basic frame according to each acquired standard computer component, expanding the computer basic frame, and generating a computer standard component frame after the expansion is completed;

step S140: acquiring custom demand data of a computer standard component frame, which is sent to a computer production management main body by the current computer production demand main body;

step S150: comparing the custom demand data with standard component parameter data in a standard component database, generating a current recommended component, and displaying the current recommended component to the current computer production demand main body.

In this embodiment, the computer component demand indication includes text or voice entered by the current computer production demand main body, and by performing text extraction and extracting features matched with a computer component, further component demand features are generated, and corresponding standard computer components are obtained according to the component demand features, and then a computer basic frame is generated, where the computer basic frame is set by the demand of the current computer production demand main body, so as to avoid that the computer basic frame is not a complete computer component, and by expanding the computer basic frame, a computer standard component frame is generated after the expansion is completed; and then, the custom demand data of the computer standard component frame, which is sent by the current computer production demand main body to the computer production management main body, is obtained, the custom demand data is further compared with the standard component parameter data in the standard component database, a current recommended component is generated, and the current recommended component is displayed to the current computer production demand main body, so that the custom components set by users are satisfied by the users, and the reliability is improved.

In one embodiment, step S200: acquiring component modification data of the current computer production demand main body on the current recommended component, generating an actual selected component and a standard assembly step according to the component modification data, acquiring a custom assembly step of the current computer production demand main body on the actual selected component, adjusting the custom assembly step according to the standard assembly step, and generating a current actual assembly step; the method specifically comprises the following steps:

step S210: acquiring component modification data of the current computer production demand main body on the current recommended component, adjusting the current recommended component according to the component modification data, and generating an actual selection component;

step S220: acquiring branch assembly steps matched with the actual selection components from a pre-stored standard assembly step database according to the actual selection components;

step S230: generating a standard assembly step according to each branch assembly step; the labeling assembly step is a standard step of computer assembly, that is, each assembly is preset with a standard assembly step, and after a fixed assembly is obtained, the standard assembly step can be automatically generated by comparing according to the preset assembly step.

Step S240: acquiring a custom assembly step of the current computer production demand main body on the actual selected component, and judging whether the standard assembly step conflicts with the custom assembly step;

step S250: if the user-defined assembly step is judged to be not in conflict, the user-defined assembly step is set as a current actual assembly step;

step S260: and if the conflict is judged, correcting the custom assembly step according to the standard assembly step and generating the current actual assembly step.

In this embodiment, in order to meet the requirement of the user on the assembly step, it is necessary to obtain the component modification data of the current recommended component by the current computer production requirement main body, and then obtain the branch assembly step matched with the actual selection component from the pre-stored standard assembly step database according to the actual selection component; then, generating a standard assembly step according to each branch assembly step, wherein in order to ensure that the user-defined step does not influence the assembly of a computer, whether the standard assembly step and the user-defined assembly step conflict or not needs to be judged, and if the standard assembly step and the user-defined assembly step do not conflict, the user-defined assembly step is set as a current actual assembly step; if the conflict is judged, the problem of the self-defined assembly step at the moment is solved, and the self-defined assembly step cannot be assembled according to the self-defined assembly step, so that the self-defined assembly step is corrected according to the standard assembly step at the moment and the current actual assembly step is generated, and further, the normal assembly can be ensured on the premise of ensuring the user self-defined step to be met.

In one embodiment, in step S400, the assembled computer and the key monitoring data are sent to the current computer production requirement body after the assembly is completed; the method specifically comprises two steps, wherein the first step is to send the key monitoring data to the computer production demand main body through a network, so that the data can be quickly sent.

The second step is to set the outer packing box of the assembled computer, which is as follows:

firstly, setting the volume of the assembled computer in the volume of a packing box matched with the assembled computer, and sending the volume of the packing box to the computer production management main body so that the computer production management main body can manufacture a physical packing box which is matched with the volume of the packing box and can pack the assembled computer;

secondly, controlling a laser engraving device to set a plurality of distance detection labels on the solid packaging box, controlling an intelligent mechanical arm to arrange the assembled computer in the solid packaging box, and simultaneously controlling an internet of things camera device to be arranged in a storage box, and then adhering the storage box and the solid packaging box together; therefore, when the computer is subsequently sent, the user receives the storage box with the assembled computer and the internet of things camera equipment.

The laser engraving equipment and the Internet of things camera equipment are preset, the Internet of things camera equipment is based on the Internet of things technology and has a remote communication function, and when the distance from the Internet of things camera equipment to the solid packaging box is a pre-stored standard distance after the Internet of things camera equipment is started, the Internet of things camera equipment can simultaneously detect each distance detection label, start video recording when simultaneously detecting each distance detection label, and remind the main body of the current computer production requirement to perform unpacking inspection;

in this step, by setting a plurality of distance detection tags and setting a pre-stored standard distance, the internet of things camera device is enabled to be a proper shooting distance from the pre-stored standard distance of the entity packaging box, and meanwhile, the fact that the plurality of distance detection tags can be detected ensures that the internet of things camera device can completely shoot all the entity packaging box. The method is different from the prior art that the user shoots the unpacking video by himself, on one hand, the problem that the distance selection is not proper due to the fact that the unpacking video is shot in the prior art is avoided, on the other hand, the problem that the unpacking angle needed by both a merchant and the user cannot be completely shot due to the fact that the shooting angle is not proper in the prior art is overcome, disputes between the user and the merchant due to the fact that the unpacking video is shot in the follow-up process are avoided, if the user shoots the video in the unclear mode, the product is found to be damaged, the merchant considers the product damaged due to the fact that the user unpacks by himself, the problem that the product cannot be forcefully proved due to the fact that the video is unclear is solved, and the problem of disputes is further caused due to the fact that the video is unclear.

Further, the unpacking teaching video can be generated and sent to the current computer production demand main body, so that the current computer production demand main body can unpack according to a course, and convenience and unpacking reliability are improved.

In one embodiment, as shown in fig. 2, a computer remote production management system based on the internet of things technology is provided, the system includes:

In one embodiment, the current actual assembly step comprises a plurality of refinement assembly steps; each of the refinement assembly steps includes a refinement assembly structure; the computer assembly indicating module is also used for:

In one embodiment, the recommendation component generation module monitors the data posting module for:

In one embodiment, the monitoring data sending module performs two steps, specifically, the step of sending the assembled computer and the key monitoring data to the current computer production requirement main body after the assembly is completed, and the first step is to send the key monitoring data to the computer production requirement main body through a network, so that the data is sent quickly.

In one embodiment, as shown in fig. 3, a computer device includes a memory and a processor, where the memory stores a computer program, and the processor implements the steps described in the method for remote production management of a computer based on the internet of things technology when executing the computer program.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims

1. The computer remote production management method based on the internet of things technology is characterized by comprising the following steps of:

acquiring custom demand data of each standard computer component in a computer standard component frame, which is sent by a current computer production demand main body to a computer production management main body, matching the custom demand data from a standard component database to generate a current recommended component, and displaying the current recommended component to the current computer production demand main body; acquiring component modification data of the current computer production demand main body on the current recommended component, generating an actual selected component and a standard assembly step according to the component modification data, acquiring a custom assembly step of the current computer production demand main body on the actual selected component, adjusting the custom assembly step according to the standard assembly step, and generating a current actual assembly step; the key monitoring step of the current computer production demand main body for calibrating the current actual assembly step is obtained, the current actual assembly step and the key monitoring step are sent to the computer production management main body, and the computer production management main body is instructed to carry out computer assembly; controlling a preset internet of things monitoring module to record key monitoring data of the computer production management main body when the key monitoring step is executed, and sending the assembled computer and the key monitoring data to the current computer production demand main body after the assembly is completed;

The current actual assembly step includes a plurality of refinement assembly steps; each of the refinement assembly steps includes a refinement assembly structure;

After the assembly is completed, sending the assembled computer and the key monitoring data to the current computer production requirement main body; the method specifically comprises two steps, wherein the first step is to send the key monitoring data to the computer production demand main body through a network:

secondly, controlling a laser engraving device to set a plurality of distance detection labels on the solid packaging box, controlling an intelligent mechanical arm to arrange the assembled computer in the solid packaging box, and simultaneously controlling an internet of things camera device to be arranged in a storage box, and then adhering the storage box and the solid packaging box together;

the laser engraving device and the Internet of things camera device are preset, the Internet of things camera device is based on the Internet of things technology and has a remote communication function, and when the distance between the Internet of things camera device and the physical packaging box is a pre-stored standard distance after the Internet of things camera device is started, the Internet of things camera device can simultaneously detect each distance detection tag, starts video recording when simultaneously detecting each distance detection tag, and reminds a main body of current computer production requirements to perform unpacking inspection.

2. The method for remotely managing computer production based on the internet of things according to claim 1, wherein a preset internet of things monitoring module is controlled to record key monitoring data of the computer production management body when the key monitoring step is executed, and the assembled computer and the key monitoring data are sent to the current computer production demand body after the assembly is completed; the method specifically comprises the following steps:

3. The method for remotely producing and managing computers based on the internet of things according to claim 2, wherein the method is characterized in that custom demand data of standard computer components in a computer standard component frame, which are sent by a current computer production demand main body to a computer production management main body, are obtained, matching is carried out from a standard component database according to the custom demand data, a current recommended component is generated, and the current recommended component is displayed to the current computer production demand main body; the method specifically comprises the following steps:

4. The method for remotely managing computer production based on the internet of things technology according to claim 3, wherein component modification data of the current recommended component by the current computer production demand main body is obtained, an actual selection component and a standard assembly step are generated according to the component modification data, a custom assembly step of the actual selection component by the current computer production demand main body is obtained, and the custom assembly step is adjusted according to the standard assembly step to generate a current actual assembly step; the method specifically comprises the following steps:

5. A computer remote production management system based on internet of things technology, which is characterized in that the system comprises:

The monitoring data sending module is used for controlling a preset internet of things monitoring module to record key monitoring data of the computer production management main body when the key monitoring step is executed, and sending the assembled computer and the key monitoring data to the current computer production demand main body after the assembly is completed;

the current actual assembly step includes a plurality of refinement assembly steps; each of the refinement assembly steps includes a refinement assembly structure; the computer assembly indicating module is also used for:

The monitoring data sending module is also used for: acquiring a start trigger operation of the computer production management main body on the Internet of things monitoring module, and generating an assembly start prompt according to the start trigger operation, wherein the assembly start prompt is used for reminding the computer production management main body to assemble according to the current actual assembly step; controlling the internet of things monitoring module to monitor the computer production management main body, and responding to a second triggering operation of the internet of things monitoring module by the computer production management main body when the key monitoring step is executed, so as to generate key video mark points; responding to a third triggering operation of the internet of things monitoring module when the computer production management main body assembles the current marking structure, and generating a key structure marking point; according to the label fixing course, the computer production management main body instructs the entity setting label corresponding to the current setting label to be positioned at the current marking structure according to the actual fixing mode, and simultaneously informs the internet of things monitoring module to record and generates a label setting marking point; after the computer production management main body assembles the computer, generating assembled complete record data; marking the assembled complete record data according to the key video mark points, the key structure mark points and the tag setting mark points, and generating key monitoring data; sending the assembled computer and the key monitoring data to the current computer production requirement main body;

In one embodiment, the monitoring data sending module performs two steps, specifically, the step of sending the assembled computer and the key monitoring data to the current computer production requirement main body after the assembly is completed, and the first step is sending the key monitoring data to the computer production requirement main body through a network:

6. The internet of things-based computer remote production management system of claim 5, wherein the recommendation component generation module monitors the data mailing module further for: