CN117057527B - Intelligent operation and maintenance method and system for industrial Internet of things of automobile manufacturing equipment - Google Patents

Intelligent operation and maintenance method and system for industrial Internet of things of automobile manufacturing equipment Download PDF

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CN117057527B
CN117057527B CN202310806579.XA CN202310806579A CN117057527B CN 117057527 B CN117057527 B CN 117057527B CN 202310806579 A CN202310806579 A CN 202310806579A CN 117057527 B CN117057527 B CN 117057527B
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store
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CN117057527A (en
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袁三红
肖小卫
李骏
杨晓青
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Dongfeng Equipment Manufacturing Co ltd
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    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
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Abstract

The invention discloses an intelligent operation and maintenance method and system of an internet of things in an automobile manufacturing device industry, wherein the method comprises the following steps: when the automobile manufacturing equipment needs operation and maintenance, acquiring the required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required computing center operation and maintenance resources, and carrying out normalization processing; setting an intelligent operation and maintenance model, and calculating the total value of required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required computing center operation and maintenance resources; and adjusting the weight in the intelligent operation and maintenance model according to the actual condition of the automobile manufacturing equipment when operation and maintenance are needed, completing the specific gravity of the operation and maintenance resources of the required store, the operation and maintenance resources of the required digital operation and maintenance center and the operation and maintenance resources of the required computing center on the premise of meeting the total value of the required resources, and carrying out resource allocation according to the specific gravity.

Description

Intelligent operation and maintenance method and system for industrial Internet of things of automobile manufacturing equipment
Technical Field
The invention belongs to the technical field of intelligent operation and maintenance of automobile manufacturing equipment, and particularly relates to an intelligent operation and maintenance method and system of the Internet of things in the industry of automobile manufacturing equipment.
Background
The equipment operation and maintenance system is a software system for managing and monitoring equipment operation states, maintenance plans, and fault handling. It is commonly applied to large enterprises or organizations for managing various types of devices, including computer servers, network devices, industrial devices, manufacturing devices, and the like.
The main functions of the equipment operation and maintenance system include: (1) device monitoring: the running state of the equipment is monitored in real time, wherein the running state comprises the health state, performance index, running time and the like of the equipment. Through equipment monitoring, operation and maintenance personnel can timely find equipment faults or abnormal conditions and take corresponding measures. (2) maintenance planning: the equipment operation and maintenance system can make and manage maintenance plans for equipment, including preventive maintenance, periodic inspection and repair, and the like. Through the equipment maintenance plan, the reliability and the service life of equipment can be improved, and the equipment faults and the downtime are reduced; (3) fault handling: when a device fails, the device operation and maintenance system can provide fault alarm and processing functions. The system can automatically detect equipment faults and send alarm notification to related personnel, and simultaneously provide fault processing guidance and record fault processing procedures; (4) asset management: the equipment operation and maintenance system can track and manage equipment asset information of enterprises, including equipment model numbers, serial numbers, purchase dates, warranty information and the like. Through the asset management function, unified management and tracking of equipment can be realized, and updating, maintenance and scrapping of the equipment are facilitated; (5) report and analysis: the equipment operation and maintenance system can generate various reports and analysis data for evaluating the performance and maintenance conditions of the equipment. The report forms and the analysis data can help management personnel to know the overall operation condition of the equipment, discover problems and improve operation and maintenance strategies; (6) integration and extension: the device operation and maintenance system may generally be integrated with other systems, such as an Enterprise Resource Planning (ERP) system, a monitoring system, and the like. By integrating other systems, a higher level of device management and automation may be achieved.
In the prior art, no technical scheme exists, and related resources can be automatically allocated according to specific conditions when the automobile manufacturing equipment needs operation and maintenance.
Disclosure of Invention
In order to solve the technical problems, the invention provides an intelligent operation and maintenance method of the internet of things in the automobile manufacturing equipment industry, which comprises the following steps:
When the automobile manufacturing equipment needs operation and maintenance, acquiring the required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required computing center operation and maintenance resources, and carrying out normalization processing;
Setting an intelligent operation and maintenance model, and calculating the total value of required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required computing center operation and maintenance resources;
And adjusting the weight in the intelligent operation and maintenance model according to the actual condition of the automobile manufacturing equipment when operation and maintenance are needed, completing the specific gravity of the operation and maintenance resources of the required store, the operation and maintenance resources of the required digital operation and maintenance center and the operation and maintenance resources of the required computing center on the premise of meeting the total value of the required resources, and carrying out resource allocation according to the specific gravity.
Further, the intelligent operation and maintenance model comprises:
f(D1,D2,D3)=w1*g(D1)+w2*h(D2)+w3*k(D3)
w1+w2+w3=1
wherein f (D 1,D2,D3) is the total value of the required resources, w 1 is the urgency weight of the required store operation and maintenance resources, w 2 is the urgency weight of the required digital operation and maintenance center operation and maintenance resources, w 3 is the urgency weight of the required operation and maintenance center operation and maintenance resources, D 1 is the required store operation and maintenance resources, D 2 is the required digital operation and maintenance center operation and maintenance resources, D 3 is the required operation and maintenance center operation and maintenance resources, g (D 1) is the urgency function of the required store operation and maintenance resources, h (D 2) is the urgency function of the required digital operation and maintenance center operation and maintenance resources, and k (D 3) is the urgency function of the required operation and maintenance center operation and maintenance resources.
Further, the urgency function g (D 1) of the required store operation and maintenance resource, the urgency function h (D 2) of the required digital operation and maintenance center operation and maintenance resource, and the urgency function k (D 3) of the required computing center operation and maintenance resource are respectively:
further, the number of required maintenance workers and the capacity value of the required maintenance workers are obtained, normalization processing is carried out, and the number of the required maintenance workers and the capacity value of the required maintenance workers after normalization processing are added to generate required store operation and maintenance resources;
acquiring the number of required accessories, whether the operation and maintenance workers need to be added in the quick repair center, carrying out normalization processing, adding the number of the required accessories after normalization processing, whether the operation and maintenance workers need to be added in the quick repair center, and generating the operation and maintenance resources of the required digital operation and maintenance center, wherein the value is 1 if the operation and maintenance needs to be carried out in the quick repair center, the value is 0 if the operation and maintenance workers need to be added, the value is 1 if the operation and maintenance workers need to be added, and the value is 0 otherwise;
and obtaining background computing resources, and carrying out normalization processing to generate the required computing power center operation and maintenance resources.
Further, practical situations when the automobile manufacturing equipment needs operation and maintenance include:
If more store operation and maintenance resources are needed, the specific gravity of the needed store operation and maintenance resources is increased;
if more digital operation and maintenance center operation and maintenance resources are needed, the specific gravity of the needed digital operation and maintenance center operation and maintenance resources is increased.
The invention also provides an intelligent operation and maintenance system of the automobile manufacturing equipment, which comprises the following components:
The data acquisition module is used for acquiring the operation and maintenance resources of the store, the digital operation and maintenance center and the calculation center when the automobile manufacturing equipment needs operation and maintenance, and carrying out normalization processing;
The setting model module is used for setting an intelligent operation and maintenance model and calculating the total value of the required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required calculation center operation and maintenance resources;
The allocation module is used for adjusting the weight in the intelligent operation and maintenance model according to the actual condition when the automobile manufacturing equipment needs to be operated and maintained, completing the specific gravity of the operation and maintenance resources of the required store, the operation and maintenance resources of the required digital operation and maintenance center and the operation and maintenance resources of the required computing force center on the premise of meeting the total value of the required resources, and allocating the resources according to the specific gravity.
Further, the intelligent operation and maintenance model comprises:
f(D1,D2,D3)=w1*g(D1)+w2*h(D2)+w3*k(D3)
w1+w2+w3=1
wherein f (D 1,D2,D3) is the total value of the required resources, w 1 is the urgency weight of the required store operation and maintenance resources, w 2 is the urgency weight of the required digital operation and maintenance center operation and maintenance resources, w 3 is the urgency weight of the required operation and maintenance center operation and maintenance resources, D 1 is the required store operation and maintenance resources, D 2 is the required digital operation and maintenance center operation and maintenance resources, D 3 is the required operation and maintenance center operation and maintenance resources, g (D 1) is the urgency function of the required store operation and maintenance resources, h (D 2) is the urgency function of the required digital operation and maintenance center operation and maintenance resources, and k (D 3) is the urgency function of the required operation and maintenance center operation and maintenance resources.
Further, the urgency function g (D 1) of the required store operation and maintenance resource, the urgency function h (D 2) of the required digital operation and maintenance center operation and maintenance resource, and the urgency function k (D 3) of the required computing center operation and maintenance resource are respectively:
further, the number of required maintenance workers and the capacity value of the required maintenance workers are obtained, normalization processing is carried out, and the number of the required maintenance workers and the capacity value of the required maintenance workers after normalization processing are added to generate required store operation and maintenance resources;
acquiring the number of required accessories, whether the operation and maintenance workers need to be added in the quick repair center, carrying out normalization processing, adding the number of the required accessories after normalization processing, whether the operation and maintenance workers need to be added in the quick repair center, and generating the operation and maintenance resources of the required digital operation and maintenance center, wherein the value is 1 if the operation and maintenance needs to be carried out in the quick repair center, the value is 0 if the operation and maintenance workers need to be added, the value is 1 if the operation and maintenance workers need to be added, and the value is 0 otherwise;
and obtaining background computing resources, and carrying out normalization processing to generate the required computing power center operation and maintenance resources.
Further, practical situations when the automobile manufacturing equipment needs operation and maintenance include:
If more store operation and maintenance resources are needed, the specific gravity of the needed store operation and maintenance resources is increased;
if more digital operation and maintenance center operation and maintenance resources are needed, the specific gravity of the needed digital operation and maintenance center operation and maintenance resources is increased.
In general, the above technical solutions conceived by the present invention have the following beneficial effects compared with the prior art:
According to the invention, when the automobile manufacturing equipment needs to be operated and maintained, the operation and maintenance resources of a store, the operation and maintenance resources of a digital operation and maintenance center and the operation and maintenance resources of an arithmetic center are acquired, and normalization processing is carried out; setting an intelligent operation and maintenance model, and calculating the total value of required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required computing center operation and maintenance resources; and adjusting the weight in the intelligent operation and maintenance model according to the actual condition of the automobile manufacturing equipment when operation and maintenance are needed, completing the specific gravity of the operation and maintenance resources of the required store, the operation and maintenance resources of the required digital operation and maintenance center and the operation and maintenance resources of the required computing center on the premise of meeting the total value of the required resources, and carrying out resource allocation according to the specific gravity. According to the technical scheme, corresponding resources can be automatically allocated according to the specific conditions when the automobile manufacturing equipment needs to be operated and maintained, and the technical effect of efficiently and automatically allocating the resources is achieved.
Drawings
FIG. 1 is a flow chart of the method of embodiment 1 of the present invention;
FIG. 2 is a block diagram of the system of embodiment 2 of the present invention;
FIG. 3 is a block diagram of an intelligent operation and maintenance management system for an automobile manufacturing device according to the present invention.
Detailed Description
In order to better understand the above technical solutions, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.
The method provided by the invention can be implemented in a terminal environment, wherein the terminal can comprise one or more of the following components: processor, storage medium, and display screen. Wherein the storage medium has stored therein at least one instruction that is loaded and executed by the processor to implement the method described in the embodiments below.
The processor may include one or more processing cores. The processor connects various parts within the overall terminal using various interfaces and lines, performs various functions of the terminal and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the storage medium, and invoking data stored in the storage medium.
The storage medium may include a random access Memory (Random Access Memory, RAM) or a Read-Only Memory (ROM). The storage medium may be used to store instructions, programs, code sets, or instructions.
The display screen is used for displaying a user interface of each application program.
All subscripts in the formula of the invention are only used for distinguishing parameters and have no practical meaning.
In addition, it will be appreciated by those skilled in the art that the structure of the terminal described above is not limiting and that the terminal may include more or fewer components, or may combine certain components, or a different arrangement of components. For example, the terminal further includes components such as a radio frequency circuit, an input unit, a sensor, an audio circuit, a power supply, and the like, which are not described herein.
Example 1
As shown in fig. 3, the present invention is directed to an intelligent operation and maintenance method for an automobile manufacturing equipment for an intelligent operation and maintenance management system for an automobile manufacturing equipment, the operation and maintenance management system comprising: the invention aims to design a set of technical scheme for optimizing an operation and maintenance management system and maximally allocating resources of the client center, the digital operation and maintenance center and the operation and maintenance center.
As shown in fig. 1, an embodiment of the present invention provides an intelligent operation and maintenance method for an internet of things in an automobile manufacturing device industry, including:
step 101, when the automobile manufacturing equipment needs operation and maintenance, acquiring the required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required calculation center operation and maintenance resources, and carrying out normalization processing;
Specifically, the method comprises the following steps: the method comprises the steps of obtaining the number of required maintenance workers and the capacity value of the required maintenance workers, carrying out normalization processing, adding the number of the required maintenance workers and the capacity value of the required maintenance workers after the normalization processing, and generating the operation and maintenance resources of a required store;
acquiring the number of required accessories, whether the operation and maintenance workers need to be added in the quick repair center, carrying out normalization processing, adding the number of the required accessories after normalization processing, whether the operation and maintenance workers need to be added in the quick repair center, and generating the operation and maintenance resources of the required digital operation and maintenance center, wherein the value is 1 if the operation and maintenance needs to be carried out in the quick repair center, the value is 0 if the operation and maintenance workers need to be added, the value is 1 if the operation and maintenance workers need to be added, and the value is 0 otherwise;
and obtaining background computing resources, and carrying out normalization processing to generate the required computing power center operation and maintenance resources.
Specifically, practical situations when the automobile manufacturing equipment needs operation and maintenance include:
If more store operation and maintenance resources are needed, the specific gravity of the needed store operation and maintenance resources is increased;
if more digital operation and maintenance center operation and maintenance resources are needed, the specific gravity of the needed digital operation and maintenance center operation and maintenance resources is increased.
Step 102, setting an intelligent operation and maintenance model, and calculating the total value of required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required calculation force center operation and maintenance resources;
specifically, the intelligent operation and maintenance model comprises:
f(D1,D2,D3)=w1*g(D1)+w2*h(D2)+w3*k(D3)
w1+w2+w3=1
wherein f (D 1,D2,D3) is the total value of the required resources, w 1 is the urgency weight of the required store operation and maintenance resources, w 2 is the urgency weight of the required digital operation and maintenance center operation and maintenance resources, w 3 is the urgency weight of the required operation and maintenance center operation and maintenance resources, D 1 is the required store operation and maintenance resources, D 2 is the required digital operation and maintenance center operation and maintenance resources, D 3 is the required operation and maintenance center operation and maintenance resources, g (D 1) is the urgency function of the required store operation and maintenance resources, h (D 2) is the urgency function of the required digital operation and maintenance center operation and maintenance resources, and k (D 3) is the urgency function of the required operation and maintenance center operation and maintenance resources.
Specifically, the emergency function g (D 1) of the required store operation and maintenance resource, the emergency function h (D 2) of the required digital operation and maintenance center operation and maintenance resource, and the emergency function k (D 3) of the required computing center operation and maintenance resource are respectively:
And step 103, adjusting the weight in the intelligent operation and maintenance model according to the actual condition when the automobile manufacturing equipment needs operation and maintenance, completing the specific gravity of the required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required computing force center operation and maintenance resources on the premise of meeting the total value of the required resources, and carrying out resource allocation according to the specific gravity.
Example 2
As shown in fig. 2, the embodiment of the present invention further provides an intelligent operation and maintenance system for an automobile manufacturing device, including:
The data acquisition module is used for acquiring the operation and maintenance resources of the store, the digital operation and maintenance center and the calculation center when the automobile manufacturing equipment needs operation and maintenance, and carrying out normalization processing;
Specifically, the method comprises the following steps: the method comprises the steps of obtaining the number of required maintenance workers and the capacity value of the required maintenance workers, carrying out normalization processing, adding the number of the required maintenance workers and the capacity value of the required maintenance workers after the normalization processing, and generating the operation and maintenance resources of a required store;
acquiring the number of required accessories, whether the operation and maintenance workers need to be added in the quick repair center, carrying out normalization processing, adding the number of the required accessories after normalization processing, whether the operation and maintenance workers need to be added in the quick repair center, and generating the operation and maintenance resources of the required digital operation and maintenance center, wherein the value is 1 if the operation and maintenance needs to be carried out in the quick repair center, the value is 0 if the operation and maintenance workers need to be added, the value is 1 if the operation and maintenance workers need to be added, and the value is 0 otherwise;
and obtaining background computing resources, and carrying out normalization processing to generate the required computing power center operation and maintenance resources.
Specifically, practical situations when the automobile manufacturing equipment needs operation and maintenance include:
If more store operation and maintenance resources are needed, the specific gravity of the needed store operation and maintenance resources is increased;
if more digital operation and maintenance center operation and maintenance resources are needed, the specific gravity of the needed digital operation and maintenance center operation and maintenance resources is increased.
The setting model module is used for setting an intelligent operation and maintenance model and calculating the total value of the required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required calculation center operation and maintenance resources;
specifically, the intelligent operation and maintenance model comprises:
f(D1,D2,D3)=w1*g(D1)+w2*h(D2)+w3*k(D3)
w1+w2+w3=1
wherein f (D 1,D2,D3) is the total value of the required resources, w 1 is the urgency weight of the required store operation and maintenance resources, w 2 is the urgency weight of the required digital operation and maintenance center operation and maintenance resources, w 3 is the urgency weight of the required operation and maintenance center operation and maintenance resources, D 1 is the required store operation and maintenance resources, D 2 is the required digital operation and maintenance center operation and maintenance resources, D 3 is the required operation and maintenance center operation and maintenance resources, g (D 1) is the urgency function of the required store operation and maintenance resources, h (D 2) is the urgency function of the required digital operation and maintenance center operation and maintenance resources, and k (D 3) is the urgency function of the required operation and maintenance center operation and maintenance resources.
Specifically, the emergency function g (D 1) of the required store operation and maintenance resource, the emergency function h (D 2) of the required digital operation and maintenance center operation and maintenance resource, and the emergency function k (D 3) of the required computing center operation and maintenance resource are respectively:
The allocation module is used for adjusting the weight in the intelligent operation and maintenance model according to the actual condition when the automobile manufacturing equipment needs to be operated and maintained, completing the specific gravity of the operation and maintenance resources of the required store, the operation and maintenance resources of the required digital operation and maintenance center and the operation and maintenance resources of the required computing force center on the premise of meeting the total value of the required resources, and allocating the resources according to the specific gravity.
Example 3
The embodiment of the invention also provides a storage medium which stores a plurality of instructions for realizing the intelligent operation and maintenance method of the internet of things in the automobile manufacturing equipment industry.
Alternatively, in this embodiment, the storage medium may be located in any one of the computer terminals in the computer terminal group in the computer network, or in any one of the mobile terminals in the mobile terminal group.
Alternatively, in the present embodiment, the storage medium is configured to store program code for performing the steps of: step 101, when the automobile manufacturing equipment needs operation and maintenance, acquiring the required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required calculation center operation and maintenance resources, and carrying out normalization processing;
Specifically, the method comprises the following steps: the method comprises the steps of obtaining the number of required maintenance workers and the capacity value of the required maintenance workers, carrying out normalization processing, adding the number of the required maintenance workers and the capacity value of the required maintenance workers after the normalization processing, and generating the operation and maintenance resources of a required store;
acquiring the number of required accessories, whether the operation and maintenance workers need to be added in the quick repair center, carrying out normalization processing, adding the number of the required accessories after normalization processing, whether the operation and maintenance workers need to be added in the quick repair center, and generating the operation and maintenance resources of the required digital operation and maintenance center, wherein the value is 1 if the operation and maintenance needs to be carried out in the quick repair center, the value is 0 if the operation and maintenance workers need to be added, the value is 1 if the operation and maintenance workers need to be added, and the value is 0 otherwise;
and obtaining background computing resources, and carrying out normalization processing to generate the required computing power center operation and maintenance resources.
Specifically, practical situations when the automobile manufacturing equipment needs operation and maintenance include:
If more store operation and maintenance resources are needed, the specific gravity of the needed store operation and maintenance resources is increased;
if more digital operation and maintenance center operation and maintenance resources are needed, the specific gravity of the needed digital operation and maintenance center operation and maintenance resources is increased.
Step 102, setting an intelligent operation and maintenance model, and calculating the total value of required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required calculation force center operation and maintenance resources;
specifically, the intelligent operation and maintenance model comprises:
f(D1,D2,D3)=w1*g(D1)+w2*h(D2)+w3*k(D3)
w1+w2+w3=1
wherein f (D 1,D2,D3) is the total value of the required resources, w 1 is the urgency weight of the required store operation and maintenance resources, w 2 is the urgency weight of the required digital operation and maintenance center operation and maintenance resources, w 3 is the urgency weight of the required operation and maintenance center operation and maintenance resources, D 1 is the required store operation and maintenance resources, D 2 is the required digital operation and maintenance center operation and maintenance resources, D 3 is the required operation and maintenance center operation and maintenance resources, g (D 1) is the urgency function of the required store operation and maintenance resources, h (D 2) is the urgency function of the required digital operation and maintenance center operation and maintenance resources, and k (D 3) is the urgency function of the required operation and maintenance center operation and maintenance resources.
Specifically, the emergency function g (D 1) of the required store operation and maintenance resource, the emergency function h (D 2) of the required digital operation and maintenance center operation and maintenance resource, and the emergency function k (D 3) of the required computing center operation and maintenance resource are respectively:
And step 103, adjusting the weight in the intelligent operation and maintenance model according to the actual condition when the automobile manufacturing equipment needs operation and maintenance, completing the specific gravity of the required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required computing force center operation and maintenance resources on the premise of meeting the total value of the required resources, and carrying out resource allocation according to the specific gravity.
Example 4
The embodiment of the invention also provides electronic equipment, which comprises a processor and a storage medium connected with the processor, wherein the storage medium stores a plurality of instructions, and the instructions can be loaded and executed by the processor so that the processor can execute the intelligent operation and maintenance method of the industrial Internet of things of the automobile manufacturing equipment.
Specifically, the electronic device of the present embodiment may be a computer terminal, and the computer terminal may include: one or more processors, and a storage medium.
The storage medium can be used for storing software programs and modules, such as a corresponding program instruction/module in the intelligent operation and maintenance method of the industrial internet of things of the automobile manufacturing equipment in the embodiment of the invention, and the processor executes various functional applications and data processing by running the software programs and the modules stored in the storage medium, so that the intelligent operation and maintenance method of the industrial internet of things of the automobile manufacturing equipment is realized. The storage medium may include a high-speed random access storage medium, and may also include a non-volatile storage medium, such as one or more magnetic storage systems, flash memory, or other non-volatile solid-state storage medium. In some examples, the storage medium may further include a storage medium remotely located with respect to the processor, and the remote storage medium may be connected to the terminal through a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.
The processor may invoke the information stored in the storage medium and the application program via the transmission system to perform the following steps: step 101, when the automobile manufacturing equipment needs operation and maintenance, acquiring the required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required calculation center operation and maintenance resources, and carrying out normalization processing;
Specifically, the method comprises the following steps: the method comprises the steps of obtaining the number of required maintenance workers and the capacity value of the required maintenance workers, carrying out normalization processing, adding the number of the required maintenance workers and the capacity value of the required maintenance workers after the normalization processing, and generating the operation and maintenance resources of a required store;
acquiring the number of required accessories, whether the operation and maintenance workers need to be added in the quick repair center, carrying out normalization processing, adding the number of the required accessories after normalization processing, whether the operation and maintenance workers need to be added in the quick repair center, and generating the operation and maintenance resources of the required digital operation and maintenance center, wherein the value is 1 if the operation and maintenance needs to be carried out in the quick repair center, the value is 0 if the operation and maintenance workers need to be added, the value is 1 if the operation and maintenance workers need to be added, and the value is 0 otherwise;
and obtaining background computing resources, and carrying out normalization processing to generate the required computing power center operation and maintenance resources.
Specifically, practical situations when the automobile manufacturing equipment needs operation and maintenance include:
If more store operation and maintenance resources are needed, the specific gravity of the needed store operation and maintenance resources is increased;
if more digital operation and maintenance center operation and maintenance resources are needed, the specific gravity of the needed digital operation and maintenance center operation and maintenance resources is increased.
Step 102, setting an intelligent operation and maintenance model, and calculating the total value of required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required calculation force center operation and maintenance resources;
specifically, the intelligent operation and maintenance model comprises:
f(D1,D2,D3)=w1*g(D1)+w2*h(D2)+w3*k(D3)
w1+w2+w3=1
wherein f (D 1,D2,D3) is the total value of the required resources, w 1 is the urgency weight of the required store operation and maintenance resources, w 2 is the urgency weight of the required digital operation and maintenance center operation and maintenance resources, w 3 is the urgency weight of the required operation and maintenance center operation and maintenance resources, D 1 is the required store operation and maintenance resources, D 2 is the required digital operation and maintenance center operation and maintenance resources, D 3 is the required operation and maintenance center operation and maintenance resources, g (D 1) is the urgency function of the required store operation and maintenance resources, h (D 2) is the urgency function of the required digital operation and maintenance center operation and maintenance resources, and k (D 3) is the urgency function of the required operation and maintenance center operation and maintenance resources.
Specifically, the emergency function g (D 1) of the required store operation and maintenance resource, the emergency function h (D 2) of the required digital operation and maintenance center operation and maintenance resource, and the emergency function k (D 3) of the required computing center operation and maintenance resource are respectively:
And step 103, adjusting the weight in the intelligent operation and maintenance model according to the actual condition when the automobile manufacturing equipment needs operation and maintenance, completing the specific gravity of the required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required computing force center operation and maintenance resources on the premise of meeting the total value of the required resources, and carrying out resource allocation according to the specific gravity.
The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.
In the foregoing embodiments of the present invention, the descriptions of the embodiments are emphasized, and for a portion of this disclosure that is not described in detail in this embodiment, reference is made to the related descriptions of other embodiments.
In the embodiments provided in the present invention, it should be understood that the disclosed technology may be implemented in other manners. The system embodiments described above are merely exemplary, and for example, the division of the units is merely a logic function division, and there may be another division manner in actual implementation, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some interfaces, units or modules, or may be in electrical or other forms.
The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.
In addition, each functional unit in the embodiments of the present invention may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.
The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied essentially or partly in the form of a software product or all or part of the technical solution, which is stored in a storage medium, and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a random-access Memory (RAM, random Access Memory), a removable hard disk, a magnetic disk, or an optical disk, etc., which can store program codes.
It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the invention.

Claims (2)

1. The intelligent operation and maintenance method for the internet of things of the automobile manufacturing equipment industry is characterized by comprising the following steps of:
When the automobile manufacturing equipment needs operation and maintenance, acquiring required store operation and maintenance resources, required digital operation and maintenance center operation and maintenance resources and required calculation center operation and maintenance resources, and carrying out normalization processing, wherein the number of required maintenance workers and the capability value of the required maintenance workers are acquired, the normalization processing is carried out, and the number of the required maintenance workers and the capability value of the required maintenance workers after the normalization processing are added to generate the required store operation and maintenance resources;
acquiring the number of required accessories, whether the operation and maintenance workers need to be added in the quick repair center, carrying out normalization processing, adding the number of the required accessories after normalization processing, whether the operation and maintenance workers need to be added in the quick repair center, and generating the operation and maintenance resources of the required digital operation and maintenance center, wherein the value is 1 if the operation and maintenance needs to be carried out in the quick repair center, the value is 0 if the operation and maintenance workers need to be added, the value is 1 if the operation and maintenance workers need to be added, and the value is 0 otherwise;
obtaining background computing resources, carrying out normalization processing, and generating required computing power center operation and maintenance resources;
Setting an intelligent operation and maintenance model, and calculating the total value of required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required computing power center operation and maintenance resources, wherein the intelligent operation and maintenance model comprises:
f(D1,D2,D3)=w1*g(D1)+w2*h(D2)+w3*k(D3)
w1+w2+w3=1
Wherein f (D 1,D2,D3) is the total value of the required resources, w 1 is the urgency weight of the required store operation and maintenance resources, w 2 is the urgency weight of the required digital operation and maintenance center operation and maintenance resources, w 3 is the urgency weight of the required operation and maintenance center operation and maintenance resources, D1 is the required store operation and maintenance resources, D 2 is the required digital operation and maintenance center operation and maintenance resources, D 3 is the required operation and maintenance center operation and maintenance resources, g (D 1) is the urgency function of the required store operation and maintenance resources, h (D 2) is the urgency function of the required digital operation and maintenance center operation and maintenance resources, and k (D 3) is the urgency function of the required operation and maintenance center operation and maintenance resources;
the emergency degree function g (D 1) of the required store operation and maintenance resource, the emergency degree function h (D 2) of the required digital operation and maintenance center operation and maintenance resource and the emergency degree function k (D 3) of the required computing force center operation and maintenance resource are respectively as follows:
according to the actual condition of the automobile manufacturing equipment when operation and maintenance are needed, the weight in the intelligent operation and maintenance model is adjusted, the specific gravity of the operation and maintenance resources of a store, the digital operation and maintenance resources of the center and the operation and maintenance resources of the computing center is completed on the premise that the total value of the required resources is met, and resource allocation is carried out according to the specific gravity, wherein the actual condition of the automobile manufacturing equipment when operation and maintenance are needed comprises:
If more store operation and maintenance resources are needed, the specific gravity of the needed store operation and maintenance resources is increased;
if more digital operation and maintenance center operation and maintenance resources are needed, the specific gravity of the needed digital operation and maintenance center operation and maintenance resources is increased.
2. An intelligent operation and maintenance system for automobile manufacturing equipment, which is characterized by comprising:
The system comprises an acquisition data module, a normalization processing module and a storage module, wherein the acquisition data module is used for acquiring the operation and maintenance resources of a store, the operation and maintenance resources of a digital operation and maintenance center and the operation and maintenance resources of an arithmetic center when the automobile manufacturing equipment needs operation and maintenance, and carrying out normalization processing, wherein the number of maintenance workers and the capability value of the maintenance workers are acquired, normalization processing is carried out, and the number of maintenance workers and the capability value of the maintenance workers after normalization processing are added to generate the operation and maintenance resources of the store;
acquiring the number of required accessories, whether the operation and maintenance workers need to be added in the quick repair center, carrying out normalization processing, adding the number of the required accessories after normalization processing, whether the operation and maintenance workers need to be added in the quick repair center, and generating the operation and maintenance resources of the required digital operation and maintenance center, wherein the value is 1 if the operation and maintenance needs to be carried out in the quick repair center, the value is 0 if the operation and maintenance workers need to be added, the value is 1 if the operation and maintenance workers need to be added, and the value is 0 otherwise;
the setting model module is used for setting an intelligent operation and maintenance model, and calculating the total value of required resources according to the normalized required store operation and maintenance resources, the required digital operation and maintenance center operation and maintenance resources and the required calculation force center operation and maintenance resources, wherein the intelligent operation and maintenance model comprises:
f(D1,D2,D3)=w1*g(D1)+w2*h(D2)+w3*k(D3)
w1+w2+w3=1
Wherein f (D 1,D2,D3) is the total value of the required resources, w 1 is the urgency weight of the required store operation and maintenance resources, w 2 is the urgency weight of the required digital operation and maintenance center operation and maintenance resources, w 3 is the urgency weight of the required operation and maintenance center operation and maintenance resources, D1 is the required store operation and maintenance resources, D 2 is the required digital operation and maintenance center operation and maintenance resources, D 3 is the required operation and maintenance center operation and maintenance resources, g (D 1) is the urgency function of the required store operation and maintenance resources, h (D 2) is the urgency function of the required digital operation and maintenance center operation and maintenance resources, and k (D 3) is the urgency function of the required operation and maintenance center operation and maintenance resources;
the emergency degree function g (D 1) of the required store operation and maintenance resource, the emergency degree function h (D 2) of the required digital operation and maintenance center operation and maintenance resource and the emergency degree function k (D 3) of the required computing force center operation and maintenance resource are respectively as follows:
The allocation module is used for adjusting the weight in the intelligent operation and maintenance model according to the actual condition when the automobile manufacturing equipment needs operation and maintenance, completing the specific gravity of the operation and maintenance resources of a required store, the operation and maintenance resources of a required digital operation and maintenance center and the operation and maintenance resources of a required computing force center on the premise of meeting the total value of the required resources, and allocating the resources according to the specific gravity, wherein the actual condition when the automobile manufacturing equipment needs operation and maintenance comprises:
If more store operation and maintenance resources are needed, the specific gravity of the needed store operation and maintenance resources is increased;
if more digital operation and maintenance center operation and maintenance resources are needed, the specific gravity of the needed digital operation and maintenance center operation and maintenance resources is increased.
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