KR20220120156A - Equipment parts management system - Google Patents

Abstract

According to an embodiment of the present invention, an equipment part management system includes: an input unit for receiving equipment part information for a product to be applied; an analysis unit for analyzing data included in the equipment part information, a manufacturer of the product to be applied, and a fault type of the product to be applied based on the equipment part information; a calculation unit for calculating a fault value based on an analysis result of the analysis unit; a storing unit for storing the fault value and forming a database; and an evaluation unit for evaluating validity for the product to be applied based on the fault value and the database.

Description

Equipment parts management system {EQUIPMENT PARTS MANAGEMENT SYSTEM}

The embodiment of the present invention identifies the failure type through the equipment parts management system, particularly the equipment parts information for equipment and parts, and analyzes, checks and reviews the failure value according to the equipment or parts to suggest the optimal product. It is related to the equipment parts management system.

The conventional equipment parts management system collects information on the failure rate of the lowest part stage and analyzes the failure of the equipment. The information on the failure rate of the lower part used at this time was provided by the manufacturer of each part in the form of data (eg, drawings, 3D modeling, datasheet) about the parts.

A variety of advanced equipment and parts are used in weapon systems such as destroyers, fighters, and tanks, and data such as NPRD (Nonelectronic Parts Reliability Data) and EPRD (Electronic Parts Reliability Data) are used to analyze the reliability of these equipment and parts. became In this case, NPRD and EPRD refer to data books that provide failure rates of parts that can be used for predictive reliability analysis in RAC (Reliability Analysis Center). NPRD deals with failure rates related to mechanical components, and EPRD deals with failure rates related to electronic components. In addition, a failure rate model considering failure physics proposed by the Naval Surface Warfare Center (NSWC) has been proposed.

Based on the above, among the sub-parts, analysis standards such as NPRD for mechanical parts, EPRD for electronic parts, and NSWC for fasteners are applied, or MIL-HDBK-217F, Reliability Toolkit, ANSI/ The failure rate has been predicted using VITA and the like.

However, the failure rate predicted in this way has a problem with low accuracy, and since analysis is performed only based on the provided data, people do not trust the predicted value and the recognition is very poor.

Korean Patent Registration No. 10-0739081 'Method for analyzing failure mechanism' (registered on July 6, 2007) Korean Patent Registration No. 10-0419296 'Analysis method and recording medium of failure mode' (registration on 2/05/2004)

An object of the present invention is to provide an equipment parts management system capable of increasing the accuracy of failure information through an analysis optimized for each step item.

Another object of the present invention is to provide an equipment parts management system capable of analyzing the optimal failure mode using failure information and an accumulated database, evaluating the selection of equipment or parts, and suggesting other equipment or parts.

According to an embodiment of the present invention, an equipment parts management system includes an input unit for receiving equipment parts information for an application target product; an analysis unit configured to analyze data included in the equipment parts information, a manufacturer of the application target product, and a failure mode of the application target product based on the equipment parts information; a calculation unit for calculating a failure value based on the analysis result of the analysis unit; a storage unit for storing the failure value and forming a database; and an evaluation unit for evaluating the validity of the application target product based on the failure value and the database.

In the present invention, based on the evaluation result of the evaluation unit, when the evaluation score is less than or equal to the reference score, it characterized in that it further comprises a suggestion unit for suggesting a product different from the application target product from the database.

In the present invention, the analysis unit, the data analysis unit for analyzing the data of the equipment parts information for the application target product; a manufacturer analysis unit for analyzing the manufacturing capability for the manufacturer of the application target product; And it is characterized in that it comprises a form analysis unit for analyzing the failure form of the application target product.

In the present invention, the data analysis unit, the information extraction unit for extracting shape information and detailed information from the equipment parts information; and a first application unit configured to analyze the application target product by applying weights to a size factor, a material factor, a weight factor, a performance factor, and a software factor based on the shape information and the detailed information, wherein the shape information includes at least one of a drawing and three-dimensional modeling of the application target product, and the detailed information includes at least one of a data sheet, NPRD, EPRD, and NSWC of the application target product.

In the present invention, the manufacturer analysis unit, a process grade determination unit for determining the process grade for each field of the manufacturer of the application target product; and a second application unit for analyzing the manufacturing capability of the manufacturer by applying weights to manufacturing factors, design factors, quality factors, system factors, and external factor factors based on the process grade.

In the present invention, the shape analysis unit, the form determination unit for determining the failure type of the application target product; and a third application unit for analyzing the failure form by applying weights to the failure form determined by the form determining unit, by applying a weight to the breakage factor, the damage factor, the breakage factor, the confidentiality factor, and the software error factor characterized in that

In the present invention, the evaluation unit, a database load unit for loading the database formed by the storage unit; and generating a final evaluation result by evaluating space utilization, software reliability, maintenance level, ergonomic design, and parts supply rate of the application target product based on the failure value calculated by the calculator and the database It is characterized in that it includes a final evaluation result generation unit for

In the present invention, the failure value is characterized in that it is calculated based on the failure rate of the applied product, the manufacturing capacity of the manufacturer, and the failure type.

In the present invention, the weight is a value stored in the database.

In the present invention, the evaluation unit is characterized in that the evaluation of the new product proposed by the proposal unit is performed again.

The equipment parts management system according to an embodiment of the present invention has an effect of increasing the accuracy of failure information through an analysis optimized for each step item.

In addition, the equipment parts management system according to an embodiment of the present invention has the effect of analyzing the optimal failure mode using the failure information and the accumulated database, evaluating the selection of equipment or parts, and suggesting other equipment or parts there is

1 is a view showing an equipment parts management system according to an embodiment of the present invention.
2 is a diagram illustrating an analysis unit according to an embodiment of the present invention.
3 is a diagram illustrating a data analysis unit according to an embodiment of the present invention.
4 is a view showing a manufacturer analysis unit according to an embodiment of the present invention.
5 is a view showing a shape analysis unit according to an embodiment of the present invention.
6 is a view showing an evaluation unit according to an embodiment of the present invention.

The present invention will be described in more detail.

Hereinafter, embodiments of the present invention and other matters necessary for those skilled in the art to easily understand the contents of the present invention will be described in detail with reference to the accompanying drawings. However, since the present invention can be embodied in various different forms within the scope of the claims, the embodiments described below are merely exemplary regardless of whether they are expressed or not.

Like reference numerals refer to like elements. In addition, in the drawings, thicknesses, ratios, and dimensions of components are exaggerated for effective description of technical content. “And/or” may include any combination of one or more that the associated configurations may define.

Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. The singular expression may include the plural expression unless the context clearly dictates otherwise.

In addition, terms such as "below", "below", "above", "upper" and the like are used to describe the relationship of the components shown in the drawings. The above terms are relative concepts, and are described with reference to directions indicated in the drawings.

Terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification is present, and includes one or more other features, number, or step. , it should be understood that it does not preclude the possibility of the existence or addition of , operation, components, parts or combinations thereof.

That is, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and when it is said that a part is connected to another part in the following description, it is directly connected In addition, it may include a case in which another element is electrically connected therebetween. In addition, it should be noted that the same components in the drawings are denoted by the same reference numbers and symbols as much as possible even though they are indicated in different drawings.

1 is a view showing an equipment parts management system 10 according to an embodiment of the present invention.

Referring to FIG. 1 , the equipment parts management system 10 includes an input unit 100 , an analysis unit 200 , a calculation unit 300 , a storage unit 400 , an evaluation unit 500 , and a suggestion unit 600 . can do.

The input unit 100 may receive equipment part information. For example, the input unit 100 may directly receive equipment parts information from a user through a separate input interface. However, the present invention is not limited thereto, and the input unit 100 may derive equipment part information by detecting the appearance or code of a product or part using an image detection sensor.

In this case, the equipment parts information may include drawings, three-dimensional modeling, data sheets, NPRD, EPRD, NSWC, process grades for each manufacturer's field, weights for failure types, etc. of the applicable product.

In this specification, NPRD and EPRD mean a data book that provides a failure rate of parts that can be used for predictive reliability analysis in RAC (Reliability Analysis Center), and NSWC is a failure rate considering failure physics proposed by the Naval Surface Warfare Center. means model.

The analysis unit 200 may analyze the data included in the equipment parts information, the manufacturer of the application target product, and the failure form of the application target product, based on the equipment parts information on the application target product. That is, the analysis unit 200 may perform analysis on the applied product based on the information on the drawings, three-dimensional modeling, data sheets, NPRD, EPRD, NSWC, process grades for each manufacturer field, and weights for failure types. have.

For example, the analysis unit 200 analyzes the data included in the equipment parts information, based on shape information such as drawings, three-dimensional modeling, etc. and detailed information such as data sheets, NPRD, EPRD, NSWC, size, material, By applying weights to weight, performance, and software factors, an application target product corresponding to equipment part information can be analyzed.

Next, the analysis unit 200 analyzes the manufacturing capability by applying weights to manufacturing, design, component quality, system, external factors, etc. can

Finally, the analysis unit 200 may analyze various types of failure by applying weights to breakage, damage, cracking, confidentiality, software error, and the like.

The calculation unit 300 may calculate a failure value based on the analysis result of the analysis unit. The failure value may mean a value in which a weight for the manufacturer's capability and failure type is additionally reflected as well as product analysis. For example, the failure value may be calculated by summing based on the failure rate of the applied product (eg, the first analysis result), the manufacturing capability of the manufacturer (eg, the second analysis result), and the failure mode (eg, the third analysis result). can

The storage unit 400 may store a failure value and form a database. In this case, the database may be formed in the internal storage device of the equipment parts management system 10 , but the present invention is not limited thereto, and may be implemented as an external storage server according to an embodiment. The equipment parts management system 10 according to an embodiment of the present invention may perform comparative analysis using a database.

The evaluation unit 500 may evaluate the validity of the application target product based on the failure value and the database. For example, the evaluation unit 500 may compare and analyze space utilization, software reliability, maintenance level, ergonomic design, parts supply and demand rate, etc. and evaluate the product, and the evaluation unit 500 may evaluate the reliability of parts selected through product evaluation. can be judged

The suggestion unit 600 may suggest another product based on the evaluation result of the evaluation unit 500 . For example, when the evaluation score (eg, a score indicating reliability) of the product determined by the evaluation unit 500 is less than or equal to the reference score, the suggestion unit 600 may suggest a product different from the application target product evaluated from the database. have. That is, the suggestion unit 600 may suggest a more appropriate product.

At this time, the evaluation unit 500 may evaluate the new product proposed by the proposal unit 600 again, and evaluate the validity of the product proposed by the proposal unit 600 . Through this, the equipment parts management system 10 according to the embodiment of the present invention may suggest a more appropriate product by re-evaluating the proposed product.

2 is a diagram illustrating the analysis unit 200 according to an embodiment of the present invention.

Referring to FIG. 2 , the analysis unit 200 may include a data analysis unit 210 , a manufacturer analysis unit 220 , and a shape analysis unit 230 .

The data analysis unit 210 may analyze data of equipment parts information for an application target product. For example, the data analysis unit 210 may analyze the application target product based on shape information or detailed information about the application target product.

The manufacturer analysis unit 220 may analyze the manufacturing capability of the application target product. For example, the manufacturer analysis unit 220 may analyze the manufacturing capability of the manufacturer of the application target product for each process step such as manufacturing, design, component quality, system, external factors, and the like.

The shape analysis unit 230 may analyze the failure shape of the application target product. For example, the form analysis unit 230 may analyze the failure form of various application target products such as breakage, damage, cracking, confidentiality, and software error.

3 is a diagram illustrating the data analysis unit 210 according to an embodiment of the present invention.

Referring to FIG. 3 , the data analysis unit 210 may include an information extraction unit 211 and a first application unit 212 .

The information extraction unit 211 may extract shape information and detailed information from the equipment parts information. Here, the shape information may include at least one of drawings and 3D modeling of the application target product, and the detailed information may include at least one of a data sheet, NPRD, EPRD, and NSWC of the application target product.

The first application unit 212 may apply a weight to a size factor, a material factor, a weight factor, a performance factor, and a software factor based on the shape information and detailed information. Through this, the first application unit 212 may generate the first analysis result AR1 by analyzing the application target product. For example, the first analysis result AR1 may include a calculated value according to the weight application and summation of the first application unit 212 .

The weight values for the factors may be included in the database or included in the input equipment part information. In addition, the weight values may be modified by the user as preset values or may be automatically modified according to feedback according to the results.

4 is a view showing the manufacturer analysis unit 220 according to an embodiment of the present invention.

Referring to FIG. 4 , the manufacturer analysis unit 220 may include a process grade determination unit 221 and a second application unit 222 .

The process grade determination unit 221 may determine the process grade for each field of the manufacturer of the application target product.

The second application unit 222 may apply a weight to a manufacturing factor, a design factor, a quality factor, a system factor, and an external factor factor based on the process grade. Through this, the second application unit 222 may generate the second analysis result AR2 by analyzing the manufacturing capability of the manufacturer of the application target product. For example, the second analysis result AR2 may include a calculated value according to the weight application and summation of the second application unit 222 .

The weight values for the factors may be included in the database or included in the input equipment part information. In addition, the weight values may be modified by the user as preset values or may be automatically modified according to feedback according to the results.

5 is a diagram illustrating a shape analysis unit 230 according to an embodiment of the present invention.

Referring to FIG. 5 , the shape analyzing unit 230 may include a shape determining unit 231 and a third applying unit 232 .

The form determination unit 231 may determine the failure form of the application target product.

The third application unit 232 may apply weights to the breakage factor, the damage factor, the breakage factor, the confidentiality factor, and the software error factor based on the failure type. Through this, the third application unit 232 may generate the third analysis result AR3 by analyzing the failure form of the application target product. For example, the third analysis result AR3 may include a calculated value according to the weight application and summation of the third application unit 232 .

The weight values for the factors may be included in the database or included in the input equipment part information. In addition, the weight values may be modified by the user as preset values or may be automatically modified according to feedback according to the results.

6 is a diagram illustrating an evaluation unit 500 according to an embodiment of the present invention.

Referring to FIG. 6 , the evaluation unit 500 may include a database load unit 510 and a final evaluation result generation unit 520 .

The database load unit 510 may load a database formed by the storage unit.

The final evaluation result generation unit 520 evaluates the space utilization, software reliability, maintenance level, ergonomic design and parts supply rate of the application target product based on the failure value and the database calculated by the calculation unit, thereby making the final evaluation result (FER) can be generated.

Through the above-described method, the equipment parts management system according to the embodiment of the present invention has an effect of increasing the accuracy of the failure information through an analysis optimized for each step item.

In addition, the equipment parts management system according to an embodiment of the present invention has the effect of analyzing the optimal failure mode using the failure information and the accumulated database, evaluating the selection of equipment or parts, and suggesting other equipment or parts there is

The functional operations described herein and the embodiments related to the present subject matter are implemented in a digital electronic circuit or computer software, firmware or hardware, including the structures disclosed herein and structural equivalents thereof, or in a combination of one or more of these It is possible.

Embodiments of the subject matter described herein relate to one or more computer program products, ie one or more computer program instructions encoded on a tangible program medium for execution by or for controlling the operation of a data processing device. It can be implemented as a module. A tangible program medium may be a radio wave signal or a computer-readable medium. A radio wave signal is an artificially generated signal, eg, a machine-generated electrical, optical or electromagnetic signal, that is generated to encode information for transmission to an appropriate receiver device for execution by a computer. The computer readable medium may be a machine readable storage device, a machine readable storage substrate, a memory device, a combination of materials that affect a machine readable radio wave signal, or a combination of one or more of these.

A computer program (also known as a program, software, software application, script or code) may be written in any form of any programming language, including compiled or interpreted language or a priori or procedural language, as a stand-alone program or module; It can be deployed in any form, including components, subroutines, or other units suitable for use in a computer environment.

A computer program does not necessarily correspond to a file on a file device. A program may be in a single file provided to the requested program, or in multiple interacting files (eg, files that store one or more modules, subprograms, or portions of code), or in files holding other programs or data. It may be stored within some (eg, one or more scripts stored within a markup language document).

A computer program may be deployed to be executed on a single computer or multiple computers located at one site or distributed over a plurality of sites and interconnected by a communication network.

Additionally, the logic flows and structural block diagrams described in this patent document describe corresponding acts and/or specific methods supported by corresponding functions and steps supported by the disclosed structural means, and corresponding It can also be used to build software structures and algorithms and their equivalents.

The processes and logic flows described herein may be performed by one or more programmable processors executing one or more computer programs to perform functions by operating on input data and generating outputs.

Processors suitable for the execution of computer programs include, for example, both general and special purpose microprocessors and any one or more processors of any form of digital computer. Typically, the processor will receive instructions and data from read-only memory or random access memory or both.

A key element of a computer is one or more memory devices for storing instructions and data and a processor for executing instructions. In addition, a computer is generally configured to be operable to receive data from, transfer data to, or perform both such operations on one or more mass storage devices for storing data, such as, for example, magnetic, magneto-optical disks or optical disks. combined or will include. However, the computer need not have such a device.

The present description sets forth the best mode of the invention, and provides examples to illustrate the invention and to enable any person skilled in the art to make or use the invention. This written specification does not limit the present invention to the specific terms presented.

Although the above has been described with reference to the preferred embodiment of the present invention, those skilled in the art or those having ordinary knowledge in the technical field will not depart from the spirit and technical scope of the present invention described in the claims to be described later. It will be understood that various modifications and variations of the present invention can be made without departing from the scope of the present invention.

Accordingly, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

10: equipment parts management system 100: input
200: analysis unit 300: calculation unit
400: storage unit 500: evaluation unit
600: proposal

Claims (10)

an input unit for receiving equipment parts information for the applicable product;
an analysis unit configured to analyze data included in the equipment parts information, a manufacturer of the application target product, and a failure mode of the application target product based on the equipment parts information;
a calculation unit for calculating a failure value based on the analysis result of the analysis unit;
a storage unit for storing the failure value and forming a database; and
Based on the failure value and the database, characterized in that it comprises an evaluation unit for evaluating the validity of the application target product,
Equipment parts management system. According to claim 1,
Based on the evaluation result of the evaluation unit, if the evaluation score is less than or equal to the reference score, characterized in that it further comprises a suggestion unit for suggesting a product different from the application target product from the database,
Equipment parts management system. 3. The method of claim 2,
The analysis unit,
a data analysis unit for analyzing data of the equipment parts information for the application target product;
a manufacturer analysis unit for analyzing the manufacturing capability for the manufacturer of the application target product; and
Characterized in that it comprises a form analysis unit for analyzing the failure form of the application target product,
Equipment parts management system. 4. The method of claim 3,
The data analysis unit,
an information extraction unit for extracting shape information and detailed information from the equipment parts information; and
A first application unit for analyzing the application target product by applying weights to size factors, material factors, weight factors, performance factors, and software factors based on the shape information and the detailed information,
The shape information includes at least one of a drawing and 3D modeling of the application target product,
The detailed information, characterized in that it includes at least one of a data sheet, NPRD, EPRD and NSWC of the applicable product,
Equipment parts management system. 5. The method of claim 4,
The manufacturer analysis unit,
a process grade determination unit for determining a process grade for each field of a manufacturer of the applicable product; and
and a second application unit for analyzing the manufacturing capability of the manufacturer by applying weights to manufacturing factors, design factors, quality factors, system factors, and external factor factors based on the process grade,
Equipment parts management system. 6. The method of claim 5,
The shape analysis unit,
a form determination unit for determining a failure form of the application target product; and
Based on the failure form determined by the form determination unit, by applying weights to a breakage factor, a damage factor, a breakage factor, a confidentiality factor, and a software error factor, comprising a third application unit for analyzing the failure form characterized in that
Equipment parts management system. 7. The method of claim 6,
The evaluation unit,
a database loading unit for loading the database formed by the storage unit; and
Based on the failure value calculated by the calculator and the database, by evaluating the space utilization, software reliability, maintenance degree, ergonomic design, and parts supply rate of the application target product, to generate a final evaluation result It characterized in that it comprises a final evaluation result generation unit,
Equipment parts management system. 8. The method of claim 7,
The failure value is characterized in that it is calculated based on the failure rate of the applicable product, the manufacturing capacity of the manufacturer, and the failure type,
Equipment parts management system. 9. The method of claim 8,
The weight, characterized in that the value stored in the database,
Equipment parts management system. 10. The method of claim 9,
The evaluation unit, characterized in that the evaluation proceeds again with respect to the new product proposed by the proposal unit,
Equipment parts management system.

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