KR20230056904A - Apparatus and method for operating failure maintenance of weapon system - Google Patents

Abstract

The present invention relates to a device for operating malfunction maintenance of a weapon system and a method thereof. The device includes: an error code input unit which receives an error code entered after a malfunction is detected by inspection equipment which checks for malfunctions in a weapon system; an error code analysis unit which analyzes the input error code and generates malfunction exclusion procedure information; an inventory management unit which checks the inventory of repair parts based on the generated malfunction exclusion procedure information; and a malfunction maintenance management unit which presents a malfunction maintenance schedule based on the malfunction exclusion procedure information, when the inventory of the repair parts is confirmed.

Description

Apparatus and method for operating failure maintenance of weapon system system

The present invention relates to an apparatus and method for operating a failure maintenance of a weapon system system, and more particularly, to repair based on failure exclusion procedure information generated by analyzing an error code input from an inspection equipment that checks a failure of a weapon system system. It relates to a device and method for operating a failure maintenance of a weapon system system that presents a failure maintenance schedule according to failure elimination procedure information when parts inventory is confirmed.

From 2021, the Integrated Logistics Support (ILS) task was officially converted to the integrated system support (IPS) concept. Integrated system support is an activity managed to economically operate and maintain weapons systems throughout the entire process (requirements to disposal). Among the newly added items in the integrated system support concept, there is a ‘maintenance’ element. Maintenance is a technical activity that identifies and improves problems by analyzing reliability/maintenance/availability trends, etc.

Operational availability can be expressed in the following formula by total operating time and total non-operating time.

Here, the total downtime is the total breakdown maintenance time + total preventive maintenance time + total administrative logistical delay time.

In order to improve operational availability, there is a method to reduce the Total Time Between Failures (TCM).

In this regard, when a failure is found during operation of the existing maintenance system, the maintenance is carried out by manually finding the error code of the inspection equipment and the failure exclusion procedure in the failure exclusion table of the booklet type manual. If there are more than two types of failure symptoms, the maintenance procedure is performed by selecting the failure exclusion procedure after determining the priority. If the cause of the failure is identified after a series of maintenance activities, the availability of the repair parts is checked, and if there is no inventory, a purchase request is made. Therefore, it takes a lot of time to secure proper maintenance procedures and repair parts when a breakdown maintenance activity occurs. In this case, a major setback may occur in terms of operation and maintenance of the weapon system.

In this regard, Korean Patent Publication No. 2014-0115186 discloses a "failure recovery method of a distributed multi-layer system for a service-based weapon system".

The present invention was invented to solve the above problems, and the weapon system system analyzes the input error code to identify the cause of the failure and generates failure exclusion procedure information based on the priority derived according to the identified cause of the failure. Its purpose is to provide a device and method for operating breakdown maintenance of

In addition, the present invention is a maintenance procedure according to preparation, removal, disassembly, inspection and reinstallation in response to the generated failure exclusion procedure information, maintenance time required according to the maintenance procedure, and failure maintenance based on weights previously assigned to the skill level of standard maintenance personnel. Its purpose is to provide a device and method for operating a failure maintenance of a weapon system system that presents a failure maintenance schedule including the total maintenance time and completion time for a weapon system.

In order to achieve the above object, an apparatus for operating failure maintenance of a weapon system system according to the present invention includes an error code input unit for receiving an error code input when a failure is detected from an inspection equipment for checking a failure of a weapon system system; an error code analysis unit that analyzes the input error code and generates failure elimination procedure information; an inventory management unit that checks inventory of repair parts based on the generated failure exclusion procedure information; and a breakdown maintenance management unit presenting a breakdown maintenance schedule according to the breakdown exclusion procedure information when the inventory of repair parts is confirmed.

In addition, the error code analysis unit is characterized in that it analyzes the input error code to identify the cause of the failure, and generates failure exclusion procedure information based on the priority derived according to the identified cause of the failure.

In addition, the error code analyzer analyzes the input error code to obtain field replaceable parts (LRU: Line Replaceable Units) composed of a plurality of shop replaceable units (SRUs) included in the weapon system system and a plurality of field replaceable units (SRUs). It is characterized in that the cause of failure is identified from at least one of the cables.

In addition, the error code analyzer prioritizes the field replacement parts composed of a plurality of field replacement items included in the weapon system system according to the cause of the failure identified by the error code analysis and a weight value given to each of the plurality of cables. It is characterized in that for deriving.

In addition, the error code analysis unit at least one of a plurality of field replacement parts and a plurality of cables composed of a plurality of field replacement items included in the weapon system system based on the priority derived according to the cause of the failure identified by the error code analysis. It is characterized by generating failure exclusion procedure information including exchange request information for requesting an exchange and repair part information required for exchange request.

In addition, the inventory management unit checks whether the repair parts required for replacement are in stock according to the generated failure exclusion procedure information through the repair parts DB, and if there is no inventory, the purchase management unit requests the purchase of the repair parts. to be

The purchase management unit may generate a delivery deadline for the repair part and notify the inventory management unit when a purchase request for a repair part that is out of stock is requested.

In addition, the failure maintenance management unit responds to failure elimination procedure information and repairs failures based on weights given to maintenance procedures according to preparation, removal, disassembly, inspection, and reinstallation, time required for maintenance procedures, and skill levels of standard maintenance personnel. It is characterized by presenting a breakdown maintenance schedule including the total maintenance time and completion time for

In order to achieve the above object, a method for operating failure maintenance of a weapon system system according to the present invention receives an error code entered after a failure is found from an inspection equipment that checks a failure of a weapon system system by an error code input unit. step; generating failure exclusion procedure information by analyzing the input error code by an error code analyzer; Checking, by the inventory management unit, inventory of repair parts based on the generated failure exclusion procedure information; and presenting a breakdown maintenance schedule according to the breakdown exclusion procedure information when the inventory of repair parts is confirmed by the breakdown maintenance management unit.

In addition, the step of generating failure exclusion procedure information by analyzing the input error code is for on-site replacement composed of a plurality of field replaceable units (SRUs) included in the weapon system system by analyzing the input error code. It is characterized in that the cause of failure is identified from at least one of parts (Line Replaceable Units) and a plurality of cables.

In addition, the step of generating failure exclusion procedure information by analyzing the input error code includes field replacement parts composed of a number of field exchange items included in the weapon system system according to the cause of failure identified by the error code analysis and It is characterized in that priorities are derived based on weights pre-assigned to each of a plurality of cables.

In addition, the step of generating fault exclusion procedure information by analyzing the input error code is composed of a plurality of field exchange items included in the weapon system system based on the priority derived according to the cause of the fault identified by the error code analysis. It is characterized in that it generates failure exclusion procedure information including exchange request information for requesting exchange of at least one of field replacement parts and a plurality of cables and repair part information required for exchange request.

In addition, in the step of checking the inventory of repair parts based on the generated failure elimination procedure information, whether or not the repair parts are in stock when requesting an exchange is checked through the repair parts DB according to the generated failure elimination procedure information, and if there is no stock, It is characterized in that a purchase management unit is requested to purchase the corresponding repair parts.

In addition, if the inventory of repair parts is confirmed, the step of presenting the breakdown maintenance schedule according to the breakdown elimination procedure information is the maintenance procedure according to preparation, removal, disassembly, inspection and reinstallation in response to the breakdown elimination procedure information, and the required maintenance procedure It is characterized by presenting a breakdown maintenance schedule including the total maintenance time and completion time for breakdown maintenance based on weights previously assigned to the time and skill level of standard maintenance personnel.

The present invention relates to an apparatus and method for operating a failure maintenance of a weapon system system by analyzing an input error code and at least one of field replacement parts and a plurality of cables composed of a plurality of field exchange items included in a weapon system system. By identifying the cause of failure from one and generating failure elimination procedure information based on the priorities derived according to the identified cause of failure, field replacement parts composed of a number of field exchange items included in the weapon system system and a number of Exchange request information for requesting an exchange of at least one of the cables and information on repair parts required for the exchange request can be quickly identified before failure maintenance is performed.

In addition, the present invention is a maintenance procedure according to preparation, removal, disassembly, inspection and reinstallation in response to the generated failure exclusion procedure information, maintenance time required according to the maintenance procedure, and failure maintenance based on weights previously assigned to the skill level of standard maintenance personnel. By presenting a breakdown maintenance schedule that includes the total maintenance time and completion time, there is an effect of efficiently managing breakdown maintenance activities.

1 is a diagram for explaining the configuration of a device for operating a failure maintenance of a weapon system according to the present invention.
2 is a diagram for explaining the structure of a weapon system applied to the present invention.
3 is a diagram for explaining the function of an error code analysis unit employed in an apparatus for operating a failure maintenance of a weapon system system according to the present invention.
4 is a diagram for explaining the function of a failure maintenance management unit employed in a device for operating failure maintenance of a weapon system system according to the present invention.
5 is a flowchart for explaining the sequence of a method of operating a failure maintenance of a weapon system according to the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments are illustrated in the drawings and described in detail.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and technical scope of the present invention. Like reference numerals have been used for like elements throughout the description of each figure.

It is understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but other elements may exist in the middle. It should be. On the other hand, when an element is referred to as “directly connected” or “directly connected” to another element, it should be understood that no other element exists in the middle.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail. Hereinafter, the same reference numerals are used for the same components in the drawings, and redundant descriptions of the same components are omitted.

FIG. 1 is a diagram for explaining the configuration of a device for operating a failure maintenance of a weapon system according to the present invention, and FIG. 2 is a diagram for explaining the structure of a weapon system applied to the present invention.

Referring to FIG. 1, the device 100 for operating breakdown maintenance of a weapon system system according to the present invention includes an error code input unit 110, an error code analysis unit 120, an inventory management unit 130, and a breakdown maintenance It includes a management unit 140 and a purchase management unit 150 .

The error code input unit 110 receives an error code input after a failure is detected from inspection equipment for checking a failure of a weapon system system.

Here, the configuration of the weapon system system, as shown in FIG. 2, is simply field replaceable parts (LRU: Line Replaceable Units) composed of a plurality of field replaceable items (SRU: Shop Replaceable Units) and a plurality of cables ), but is not limited thereto.

The error code analyzer 120 analyzes the input error code and generates failure exclusion procedure information.

The error code analysis unit 120 analyzes the input error code to determine the cause of the failure, generates failure exclusion procedure information based on the priority derived according to the identified cause of failure, and in relation to this, in FIG. 3 described later, in detail Let's explain.

The inventory management unit 130 checks the inventory of repair parts based on the generated failure exclusion procedure information.

When the inventory of repair parts is confirmed, the breakdown maintenance management unit 140 presents a breakdown maintenance schedule according to breakdown exclusion procedure information.

The breakdown maintenance management department responds to the information on the breakdown exclusion procedure and prepares, removes, removes, inspects, and reinstalls the maintenance procedures, the time required for the maintenance procedures, and the total number of breakdown maintenance based on the weighted value given to the skill level of the standard maintenance personnel. A failure maintenance schedule including the required maintenance time and completion time may be presented, and will be described in detail in FIG. 4 that will be described later in relation to Io.

When a purchase request for a repair part that is out of stock is requested, the purchase manager 150 creates a delivery deadline for the repair part and notifies the inventory manager 150 of the delivery date. That is, the purchase manager 150 creates a delivery deadline for the repair part when a gradient of the corresponding repair part is requested because there is no stock when the inventory management unit checks the stock of the repair part.

3 is a diagram for explaining the function of an error code analysis unit employed in an apparatus for operating a failure maintenance of a weapon system system according to the present invention.

Referring to FIG. 3, the error code analyzer 120 according to the present invention analyzes the input error code and generates failure exclusion procedure information.

That is, the error code analysis unit 120 analyzes the input error code to determine the cause of the failure, and generates failure exclusion procedure information based on the priority derived according to the identified cause of the failure.

More specifically, the error code analysis unit 120 analyzes the input error code to determine the cause of failure from at least one of a plurality of cables and field replacement parts composed of a plurality of field replacement items included in the weapon system system. can As shown in FIG. 3, the cause of failure is cable #1 bad, field replaceable part (LRU) 01 field replaceable item (SRU) 01 bad, cable #3 bad, cable #1 bad, field replaceable part (LRU) 03 It can be classified into field replaceable items (SRU) 01 defective, field replaceable parts (LRU) 02 field replaceable items (SRU) 01 defective, and the like.

In addition, the error code analysis unit 120 is based on field replacement parts composed of a plurality of field exchange items included in the weapon system system according to the cause of the failure identified by the error code analysis and weights previously assigned to each of the plurality of cables. priorities can be derived. Weights can be assigned from W2 to W6 according to the cause of failure as shown in FIG. It should be higher than this field replaceable part.

Also, the error code analyzer 120 selects among field replacement parts composed of a plurality of field exchange items included in the weapon system and a plurality of cables based on the priority derived according to the cause of the failure identified by the error code analysis. It is possible to generate failure elimination procedure information including exchange request information for requesting at least one exchange and repair part information required for exchange request. As shown in FIG. 3, exchange request information (actions) is for cable #1 exchange, field replacement part (LRU) 01 field replacement item (SRU) 01 exchange, cable #3 exchange, cable #1 exchange, field replacement Part (LRU) 03 field replaceable item (SRU) 01 exchange, field replaceable part (LRU) 02 field replaceable item (SRU) 01 can be generated by replacement, etc., and repair parts information is exchanged as shown in FIG. Can be made into cables and components.

Referring to the drawing shown in FIG. 3, for example, if the input error code is 'Error 100: SRU 01 Abnormal', a weight is given to the cable and field replaceable parts. Here, the cable is W2 and the field replaceable part is W1. Then, starting from the inspection port, the priority is derived by summing the weights, and the failure exclusion procedure information can be generated by exchanging abnormal field replacement parts/field exchange items or exchanging cables between equipment.

4 is a diagram for explaining the function of a failure maintenance management unit employed in a device for operating failure maintenance of a weapon system system according to the present invention.

Referring to FIG. 4 , the breakdown maintenance management unit 140 according to the present invention presents a breakdown maintenance schedule according to breakdown exclusion procedure information when the inventory of repair parts is confirmed.

That is, the failure maintenance management unit 140 responds to the failure exclusion procedure information based on the weights previously assigned to the maintenance procedures according to preparation, removal, disassembly, inspection, and reinstallation, the time required for the maintenance procedures, and the skill level of the standard maintenance personnel. Suggest a breakdown maintenance schedule that includes the total maintenance time for the breakdown and when it will be completed. In this case, when the repair part delivery date is created because there is no stock of the repair part, the repair part delivery time may be combined with the repair part delivery time.

As shown in FIG. 4, the maintenance procedure consists of preparation procedures, cables, field replacement parts, and field replacement items removal, disassembly, inspection, reinstallation, and subsequent procedures, and the required time is divided into minutes according to the maintenance procedure, In this case, maintenance personnel are divided into skilled, semi-skilled and non-skilled and weighted.

Referring to the drawing shown in FIG. 4 , for example, when the failure elimination procedure information is 'defective SRU01 of LRU03' and the stock of the corresponding part is held, the required maintenance time is calculated according to the failure elimination procedure information. 100% removal, 150% reinstallation. At this time. Reinstallation includes torque application and quality inspection time. In addition, it is understood that the preparation time for maintenance tools and repair parts = 30 minutes as a preparation procedure, and the next procedure is maintenance tool arrangement = 30 minutes. In addition, the skill level of the standard maintenance personnel is set to 100% for skilled workers, 125% for semi-skilled workers, and 150% for non-skilled workers, but the inspection time is assumed to be the same regardless of skilled workers = 60 minutes. In addition, the time for exchanging and removing cables/field replacement parts/field replacement items is automatically calculated based on the number of fasteners (1.5 minutes per fastener). In other words, fastener information is utilized in the repair part DB, and cable #1 (6 fasteners): 6 x 1.5 = 9 minutes, cable #3 (4 fasteners): 4 x 1.5 = 6 minutes, for field replacement Part (LRU) 03 (20 fasteners) : 20 x 1.5 = 30 minutes, field replaceable part (LRU) 03 field replaceable item (SRU) 01 (10 fasteners) : 10 x 1.5 = 15 minutes can

5 is a flowchart for explaining the sequence of a method of operating a failure maintenance of a weapon system according to the present invention.

Referring to FIG. 5 , the method for operating breakdown maintenance of the weapon system system according to the present invention uses the device for operating breakdown maintenance of the weapon system system described above, and redundant descriptions will be omitted below.

First, an error code input after a failure is found from an inspection equipment for checking a failure of a weapon system system is received (S100).

Next, the input error code is analyzed to determine the cause of the failure, and failure elimination procedure information is generated based on the priority derived according to the identified cause of the failure (S200).

Step S200 analyzes the input error code to determine the cause of failure from at least one of a plurality of cables and field replaceable parts composed of a plurality of field replacement items included in the weapon system system.

Then, according to the cause of failure identified by error code analysis, priorities are derived based on the weights given to each field replacement part composed of a number of field exchange items included in the weapon system and a number of cables.

Then, based on the priorities derived according to the cause of the failure identified by the error code analysis, a request for exchange of at least one of a plurality of cables and field replacement parts consisting of a plurality of field exchange items included in the weapon system system It creates failure exclusion procedure information including exchange request information and repair parts information required for exchange request.

Next, based on the generated failure exclusion procedure information, the inventory of repair parts is checked (S300).

In step S300, if the inventory of repair parts is confirmed, a weighted value given to the maintenance procedure according to preparation, removal, disassembly, inspection and reinstallation in response to the failure exclusion procedure information, the time required for the maintenance procedure, and the skill level of the standard maintenance personnel Based on this, a breakdown maintenance schedule including the total maintenance time and completion time for breakdown maintenance is presented (S400).

On the other hand, in step S300, if the inventory of repair parts is not confirmed, after requesting the purchase of repair parts and checking the delivery deadline of the repair parts, go to step S400 to present a breakdown maintenance schedule including the delivery deadline for the repair parts. .

The functional operations described in this specification and the embodiments related to the present subject matter are implemented in digital electronic circuits, computer software, firmware, or hardware, or in a combination of one or more of them, including the structures disclosed in this specification and their structural equivalents. possible.

Embodiments of the subject matter described herein relate to one or more computer program products, that is, one or more computer program instructions encoded on a tangible program medium for execution by or controlling the operation of a data processing device. It can be implemented as a module. A tangible program medium may be a propagated signal or a computer readable medium. A propagated signal is an artificially generated signal, eg a machine generated electrical, optical or electromagnetic signal, generated to encode information for transmission by a computer to an appropriate receiver device. 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 propagation 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 programming language, including compiled or interpreted language or a priori or procedural language, and may be a stand-alone program or module; It may 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 contained within a single file provided to the requested program, or within multiple interacting files (e.g., one or more of which stores a module, subprogram, or piece of code), or within a file holding other programs or data. may be stored within a part (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 across multiple sites and interconnected by a communication network.

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

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

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 type of digital computer. Generally, a processor will receive instructions and data from either read-only memory or random access memory or both.

The core elements of a computer are one or more memory devices for storing instructions and data and a processor for executing instructions. Also, a computer is generally operable to receive data from or transfer data to one or more mass storage devices for storing data, such as magnetic, magneto-optical disks or optical disks, or to perform both such operations. combined with or will include them. However, a computer need not have such a device.

The present description presents the best mode of the invention and provides examples to illustrate the invention and to enable those skilled in the art to make and use the invention. The specification thus prepared does not limit the invention to the specific terms presented.

Therefore, although the present invention has been described in detail with reference to the above-described examples, those skilled in the art may make alterations, changes, and modifications to the present examples without departing from the scope of the present invention. In short, it is not necessary to separately include all the functional blocks shown in the drawings or follow all the steps shown in the drawings in the order shown in order to achieve the intended effect of the present invention, even if not, the technical skills of the present invention described in the claims Note that it may fall within the range.

100: A device that operates the failure maintenance of the weapon system system
110: error code input unit
120: error code analysis unit
130: inventory management unit
140: failure maintenance management department
150: purchase management department

Claims (14)

An error code input unit that receives an error code input when a failure is detected from the inspection equipment that checks the failure of the weapon system system;
an error code analysis unit that analyzes the input error code and generates failure elimination procedure information;
an inventory management unit that checks inventory of repair parts based on the generated failure exclusion procedure information; and
If the inventory of repair parts is confirmed, a breakdown maintenance management unit presenting a breakdown maintenance schedule according to the breakdown exclusion procedure information;
A device for operating a failure maintenance of a weapon system system, characterized in that it comprises a. According to claim 1,
The error code analysis unit analyzes the input error code to determine the cause of the failure, and operates failure maintenance of the weapon system system, characterized in that to generate failure exclusion procedure information based on the priority derived according to the identified failure cause. Device. According to claim 1,
The error code analyzer analyzes the input error code and selects field replaceable parts (LRU: Line Replaceable Units) composed of a plurality of field replaceable items (SRU: Shop Replaceable Units) included in the weapon system system and a plurality of cables ( A device for operating failure maintenance of a weapon system system, characterized in that for identifying the cause of failure from at least one of the cable). According to claim 1,
The error code analyzer derives priorities based on the weights given to each field replacement part composed of a number of field exchange items included in the weapon system system and a number of cables according to the cause of the failure identified by the error code analysis. A device for operating failure maintenance of a weapon system system, characterized in that for doing. According to claim 1,
The error code analysis unit selects at least one of a plurality of field replacement parts and a plurality of cables composed of a plurality of field replacement items included in the weapon system system based on the priority derived according to the cause of the failure identified by the error code analysis. An apparatus for operating failure maintenance of a weapon system, characterized in that it generates failure exclusion procedure information including exchange request information requesting exchange and repair parts information required for exchange request. According to claim 1,
The inventory management unit checks whether or not the repair parts required when requesting an exchange are in stock according to the generated failure exclusion procedure information through the repair parts DB, and requests the purchase management unit to purchase the repair parts if there is no stock. Characterized in that A device that operates failure maintenance of a weapon system system. According to claim 6,
Wherein the purchase manager generates a delivery deadline for the repair part when a purchase request for a repair part that is out of stock is notified to the inventory manager. According to claim 1,
The breakdown maintenance management unit responds to the breakdown exclusion procedure information for maintenance procedures according to preparation, removal, disassembly, inspection and reinstallation, the time required for the maintenance procedure, and the weighted value already assigned to the skill level of the standard maintenance personnel. A device for operating breakdown maintenance of a weapon system system, characterized in that it presents a breakdown maintenance schedule including total maintenance time and completion time. Receiving an error code input by an error code input unit when a failure is detected and inputted from an inspection equipment for checking a failure of a weapon system;
generating failure exclusion procedure information by analyzing the input error code by an error code analyzer;
Checking, by the inventory management unit, inventory of repair parts based on the generated failure elimination procedure information; and
presenting a breakdown maintenance schedule according to breakdown exclusion procedure information when the inventory of repair parts is confirmed by the breakdown maintenance management unit;
A method for operating a failure maintenance of a weapon system system comprising a. According to claim 9,
The step of analyzing the input error code to generate failure exclusion procedure information,
By analyzing the input error code, at least one of field replaceable parts (LRU: Line Replaceable Units) composed of a number of field replaceable items (SRU: Shop Replaceable Units) included in the weapon system system and a plurality of cables A method of operating a failure maintenance of a weapon system system, characterized in that to determine the cause of failure from one. According to claim 9,
The step of analyzing the input error code to generate failure exclusion procedure information,
According to the cause of failure identified by error code analysis, priority is derived based on weights given to field replacement parts and multiple cables composed of a number of field replacement items included in the weapon system system. Characterized in that A method for operating a failure maintenance of a weapon system system, characterized in that. According to claim 9,
The step of analyzing the input error code to generate failure exclusion procedure information,
Exchange request requesting exchange of at least one of a plurality of cables and field replacement parts composed of a plurality of field exchange items included in the weapon system based on the priority derived according to the cause of failure identified by error code analysis A method for operating failure maintenance of a weapon system system, characterized in that by generating failure exclusion procedure information including information and repair parts information required for exchange request. According to claim 9,
The step of checking the inventory of repair parts based on the generated failure exclusion procedure information is,
According to the generated failure exclusion procedure information, when requesting an exchange, whether or not the repair parts are in stock is checked through the repair parts DB, and if there is no inventory, the purchase of the corresponding repair parts is requested to the purchase management department. How to operate Breakdown Maintenance. According to claim 9,
If the inventory of repair parts is confirmed, the step of presenting a breakdown maintenance schedule according to the breakdown exclusion procedure information is,
The total maintenance time required for failure maintenance based on the maintenance procedure according to preparation, removal, disassembly, inspection and reinstallation in response to the failure exclusion procedure information, the time required according to the maintenance procedure, and the weighted value previously assigned to the skill level of the standard maintenance personnel A method of operating a breakdown maintenance of a weapon system system, characterized in that presenting a breakdown maintenance schedule including a completion point.

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