KR20240028758A - Guided weapon component history management system using radio tag with parallel antenna structure - Google Patents

Abstract

In these embodiments, the antenna of the wireless tag mounted on the component of the guided weapon is designed in a parallel structure, and the information of the guided weapon component can be recognized from outside the metal body of the guided weapon using an external antenna connected in parallel through a fastening screw. Provides a guided weapon component history management system.

Description

Guided weapon component history management system using a wireless tag with a parallel antenna structure {GUIDED WEAPON COMPONENT HISTORY MANAGEMENT SYSTEM USING RADIO TAG WITH PARALLEL ANTENNA STRUCTURE}

The technical field to which the present invention belongs relates to the connection structure and operation method of a guided weapon component history management system.

The content described in this section simply provides background information for this embodiment and does not constitute prior art.

Guided weapon components require complex and systematic history management. If a problem occurs with a guided weapon component of a particular lot, a situation may arise where the guided missile must be disassembled to check whether the problematic component is installed.

Guided weapons are explosives, and the manual process of disassembling explosives is subject to many restrictions. In addition, in order to manage guided weapon components, operators manually write records in advance, but various problems such as errors can occur.

Even if a method of attaching a wireless tag (RFID tag, etc.) to a guided weapon component and acquiring information through a tag reader is applied to recognize the wireless tag, the guided weapon component is fastened inside the metal body of the guided weapon, so radio waves are induced. There is a problem that wireless tag recognition is impossible for completed guided weapons because they cannot penetrate the metal body of the weapon.

Korean Patent Publication No. 10-1546131 (2015.08.13) Korean Patent Publication No. 10-1559343 (2015.10.05)

Embodiments of the present invention design the antenna of the wireless tag mounted on the component of the guided weapon in a parallel structure, and recognize information on the guided weapon component from outside the metal body of the guided weapon using an external antenna connected in parallel through a fastening screw. The main purpose is to do this.

Other unspecified objects of the present invention can be additionally considered within the scope that can be easily inferred from the following detailed description and its effects.

According to one aspect of this embodiment, a guided weapon component history management system includes: a guided weapon component mounted inside a metal body of a guided weapon and attached to a wireless tag having a first antenna; and a fastening screw fastened to a screw groove of the metal body and having a second antenna, wherein the fastening screw is inserted into the screw groove of the metal body to form a signal path between the second antenna and the wireless tag. , It provides a guided weapon component history management system, characterized in that the first antenna and the second antenna form a parallel antenna structure.

The guided weapon component may include: the wireless tag having the first antenna for transmitting and receiving wireless signals; A 1-1 conductor connected to the wireless tag to provide a signal path; And it may include a first-second conductor connected to the wireless tag to provide a signal path.

The data chipset of the wireless tag may store the management number of the guided weapon component, an experiment report of the guided weapon component, and input/output details of the guided weapon component.

The 1-1 conductor may be connected to the inner side of the screw groove of the metal body.

The 1-2 conductor may be connected to the inner bottom of the screw groove of the metal body.

The fastening screw includes a screw body formed in a rotatable structure; a second antenna connected to the screw body and having an antenna pattern for transmitting and receiving wireless signals; A 2-1 conductor connected to the second antenna to provide a signal path; And it may include a 2-2 conductor connected to the second antenna to provide a signal path.

The 2-1 conductor may be formed in a structure exposed to the external side of the screw body.

The 2-2 conductor may be formed in a structure exposed to the outer bottom of the screw body across the center of the screw body, and the side of the 2-2 conductor may be surrounded by a non-conductor.

The second antenna may be formed in a structure exposed to the outer top of the screw body.

The antenna pattern of the second antenna may be formed in a wrinkled shape at positions radiating in four directions around the circumference of the driver insertion groove of the screw body.

According to another aspect of the present embodiment, a guided weapon component history management method using a guided weapon component history management system includes the steps of attaching a wireless tag having a first antenna to a guided weapon component that performs a predesigned function; Mounting the guided weapon component to a metal body of the guided weapon; fastening and fixing the guided weapon component to the metal body using a fastening screw having a second antenna; forming a signal path between the second antenna and the wireless tag by inserting the fastening screw into a screw groove of the metal body; And performing wireless communication via the second antenna through a tag reader to identify information on the guided weapon component from the wireless tag located inside the metal body. .

The step of forming a signal path between the second antenna and the wireless tag includes connecting the 1-1 conductor of the guided weapon component and the 1-2 conductor of the fastening screw by contacting each other, and connecting the first conductor of the guided weapon component to the first conductor of the guided weapon component. The 1-2 conductor and the 2-2 conductor of the fastening screw may be connected by contacting each other.

As described above, according to embodiments of the present invention, the antenna of the wireless tag mounted on the component of the guided weapon is designed in a parallel structure, and an external antenna connected in parallel through a fastening screw is used to connect the antenna to the outside of the metal body of the guided weapon. It has the effect of recognizing information on guided weapon components.

Even if the effects are not explicitly mentioned here, the effects described in the following specification and their potential effects expected by the technical features of the present invention are treated as if described in the specification of the present invention.

Figure 1 is a diagram illustrating a guided weapon component history management system according to an embodiment of the present invention.
Figure 2 is a flowchart illustrating a method for managing the history of guided weapon components according to another embodiment of the present invention.
Figure 3 is a diagram illustrating the configuration of guided weapon components and fastening screws of the guided weapon component history management system according to an embodiment of the present invention.
Figures 4 and 5 are diagrams illustrating the fastening form of guided weapon components and fastening screws of the guided weapon component history management system according to an embodiment of the present invention.
Figure 6 is a plan view illustrating guided weapon components of the guided weapon component history management system according to an embodiment of the present invention.
Figure 7 is a cross-sectional view illustrating guided weapon components of the guided weapon component history management system according to an embodiment of the present invention.
Figure 8 is a plan view illustrating a fastening screw of a guided weapon component history management system according to an embodiment of the present invention.
Figure 9 is a cross-sectional view illustrating a fastening screw of a guided weapon component history management system according to an embodiment of the present invention.

Hereinafter, in describing the present invention, if it is determined that related known functions may unnecessarily obscure the gist of the present invention as they are obvious to those skilled in the art, the detailed description will be omitted, and some embodiments of the present invention will be described. It will be described in detail through exemplary drawings.

The guided weapon component history management system according to this embodiment requires use history management of important parts in the production process and is applicable to a system for automating the receipt and delivery of parts.

Figure 1 is a diagram illustrating a guided weapon component history management system according to an embodiment of the present invention.

The guided weapon component history management system includes a guided weapon (10) and a fastening screw (20). Guided weapon components 11 are mounted inside the metal body 15 of the guided weapon 10. By attaching a wireless tag (RFID tag, etc.) to a guided weapon component, information on the guided weapon component can be obtained using the tag reader 30.

Through wireless tag sensing, you can obtain various information such as component information according to component number, test report, and input/output history.

When assembling guided weapon components, tags attached to the components are difficult to recognize due to the metal body. To solve this problem, a parallel wireless tag antenna structure is applied.

The parallel wireless tag antenna structure connects multiple antennas in parallel. The internal antenna is located on the component body, and the external antenna is connected to a fastening screw that connects to the guided weapon metal body through another route.

When assembled into a guided missile, the metal body and guided weapon components are fastened using fastening screws. Using these contact points, an antenna pattern is formed on the head of the fastening screw. A path connecting the antenna path of the component can be formed in the thread of the fastening screw having an antenna pattern.

Even for fully assembled guided weapons, the component information inside the guided weapon can be identified without disassembling it using a tag reader. History can be managed through identifiable guided weapon component information.

Figure 2 is a flowchart illustrating a method for managing the history of guided weapon components according to another embodiment of the present invention.

The guided weapon component history management method may be performed by a guided weapon component history management system.

In step S10, a wireless tag having a first antenna may be attached to a guided weapon component that performs a pre-designed function.

In step S20, the guided weapon component may be mounted on the metal body of the guided weapon.

In step S30, a step of fastening and fixing the guided weapon component to the metal body can be performed using a fastening screw having a second antenna.

In step S40, a signal path may be formed between the second antenna and the wireless tag by inserting the fastening screw into the screw groove of the metal body.

In step S50, a step of identifying information on guided weapon components from a wireless tag located inside the metal body can be performed by performing wireless communication through a tag reader and a second antenna.

In the step of forming a signal path between the second antenna and the wireless tag (S40), the 1-1 conductor of the guided weapon component and the 1-2 conductor of the fastening screw are connected by contacting each other, and the 1-2 conductor of the guided weapon component is connected. The 2-2 conductors of the conductors and fastening screws can be connected by contacting each other.

Figure 3 is a diagram illustrating the configuration of guided weapon components and fastening screws of the guided weapon component history management system according to an embodiment of the present invention.

A plurality of guided weapon components 11 and 12 may be assembled and mounted on the metal body 15 of the guided weapon 10. Guided weapon components include a warhead module that explodes in the process of hitting the target, a communication module that performs data communication with the outside, a navigation module that performs attitude control and guided flight, and a propulsion module that provides propulsion to the target location, and comprehensively controls each module. It may include a control module that transmits a control command to do so.

The first guided weapon component 11 is mounted inside the metal body of the guided weapon and a wireless tag 100 having a first antenna 110 is attached.

The fastening screw 20 is fastened to the screw groove of the metal body and has a second antenna 210.

As the fastening screw is inserted into the screw groove of the metal body, it forms a signal path between the second antenna and the wireless tag. The first antenna and the second antenna of the wireless tag form a parallel antenna structure, so that the first antenna can operate as an internal antenna and the second antenna can operate as an external antenna.

The first guided weapon component 11 includes a wireless tag 100 having a first antenna 110 for transmitting and receiving a wireless signal, a 1-1 conductor 121 connected to the wireless tag to provide a signal path, and a wireless tag. It may include a first-second conductor 122 that is connected to and provides a signal path.

The fastening screw 20 includes a screw body 25 formed in a rotatable structure, a second antenna 210 connected to the screw body and having an antenna pattern for transmitting and receiving wireless signals, and a second antenna 210 connected to the second antenna to provide a signal path. It may include a 2-1 conductor 221 and a 2-2 conductor 222 connected to the second antenna to provide a signal path.

Figures 4 and 5 are diagrams illustrating the fastening form of guided weapon components and fastening screws of the guided weapon component history management system according to an embodiment of the present invention.

Wireless tags, such as RFID (radio frequency identification) tags, are attached to the body of guided weapon components, and can be recognized through a tag reader to obtain information about the guided weapon component. The wireless tag has a parallel antenna structure. One of the two parallel antennas is in the form of a normal antenna, and the other is connected to the fastening screw hole of the component.

Once the guided weapon is assembled, the guided weapon components are mounted on the metal fuselage. At this time, wireless tag recognition is impossible due to the metal body. To solve this problem, the antenna is designed so that the external antenna is located on the screw head. The fastening screw has a structure similar to a socket light bulb and fastens the metal body and components, so through this, information on guided weapon components can be obtained without disassembling the guided weapon.

A fastening screw 20 including an antenna is coupled to the body 15 of the guided weapon. As the screw is fastened, the tag antenna of component 11 is connected to the antenna of the screw.

The guided weapon component is fastened and fixed to the metal body using the second antenna of the fastening screw, and as the fastening screw is inserted into the screw groove of the metal body, a signal path is formed between the second antenna and the wireless tag.

The 1-1 lead wire 121 of the guided weapon component and the 1-2 lead wire 221 of the fastening screw are connected by contacting each other, and the 1-2 lead wire 122 of the guided weapon component and the 2-2 lead wire 221 of the fastening screw are connected. The two conductors 222 can be connected by contacting each other.

Figure 6 is a plan view illustrating guided weapon components of the guided weapon component history management system according to an embodiment of the present invention, and Figure 7 illustrates guided weapon components of the guided weapon component history management system according to an embodiment of the present invention. This is a cross-sectional view.

The data chipset 122 of the wireless tag 130 can store the management number of the guided weapon component, the test report of the guided weapon component, and the input/output details of the guided weapon component.

There is a screw groove 130 required for fastening during the guided weapon assembly process. The 1-1st conductor 121 and the 1-2nd conductor 122 are connected to the screw groove and the antenna 110 of the wireless tag 100 is connected to form a parallel antenna structure. The fastening screw 20 is inserted into the screw groove 130 and connected to the wall and the screw center connection point 131.

The 1-1 conductor 121 may be connected to the inner side of the screw groove 130 of the metal body, and the 1-2 conductor 122 may be connected to the inner bottom of the screw groove 130 of the metal body.

Figure 8 is a plan view illustrating the fastening screw of the guided weapon component history management system according to an embodiment of the present invention, and Figure 9 is a cross-sectional view illustrating the fastening screw of the guided weapon component history management system according to an embodiment of the present invention. am.

Looking at the screw head with the second antenna 210, the wireless tag of the component can be recognized after the guided weapon is assembled through the second antenna. There is a conductive wire connected to the wireless tag in the center, and the surrounding area is surrounded by an insulator. And another conductor is connected to the wall of the screw.

The second antenna 210 may be formed in a structure exposed to the outer top of the screw body. The antenna pattern of the second antenna may be formed in the form of wrinkles at positions radiating in four directions around the circumference of the driver insertion groove of the screw body.

The 2-1st conductor 221 is formed in a structure exposed to the external side of the screw body.

The 2-2 conductor 222 is formed in a structure that crosses the center of the screw body and is exposed to the outer bottom of the screw body, and the side of the 2-2 conductor is surrounded by a non-conductor 223.

Through this fastening structure, it is possible to manage the history of guided weapons by applying it to multiple components. With the guided weapon assembled, all information on the components, including production date and inspection history, can be checked and managed at once by scanning through a tag reader.

This fastening structure can be applied from an automation perspective not only to the guided weapons process but also to the body assembly process where radio waves are blocked. When maintenance is required or when responding to a recall of parts, you can obtain advantageous effects in terms of time and cost because you only need to identify which parts are included without disassembling the product and process the recall only for products that use the target parts.

Electronic devices included in the guided weapon include at least one processor, a computer-readable storage medium, and a communication bus.

The processor can control how the system operates. For example, the processor may execute one or more programs stored on a computer-readable storage medium. One or more programs may include one or more computer-executable instructions, which, when executed by a processor, may be configured to cause the system to perform operations according to example embodiments.

A computer-readable storage medium is configured to store computer-executable instructions or program code, program data, and/or other suitable form of information. Computer-executable instructions, program code, program data, and/or other suitable forms of information may also be provided through an input/output interface or communication interface. A program stored on a computer-readable storage medium includes a set of instructions executable by a processor. In one embodiment, the computer-readable storage medium includes memory (volatile memory, such as random access memory, non-volatile memory, or an appropriate combination thereof), one or more magnetic disk storage devices, optical disk storage devices, flash memory devices. , other types of storage media that can be accessed by the system and store desired information, or a suitable combination thereof.

A communication bus interconnects various other components of an information processing device, including a processor and computer-readable storage media.

Electronic devices included in guided weapons may also include one or more input/output interfaces and one or more communication interfaces that provide interfaces for one or more input/output devices. The input/output interface and communication interface are connected to a communication bus. Input/output devices can be connected to other components of the system through input/output interfaces.

Each device may be implemented within a logic circuit using hardware, firmware, software, or a combination thereof, and may also be implemented using a general-purpose or special-purpose computer. The device may be implemented using hardwired devices, field programmable gate arrays (FPGAs), application specific integrated circuits (ASICs), etc. Additionally, the device may be implemented as a System on Chip (SoC) including one or more processors and a controller.

Each device may be mounted on a computing device or server equipped with hardware elements in the form of software, hardware, or a combination thereof. A computing device or server includes all or part of a communication device such as a communication modem for communicating with various devices or a wired or wireless communication network, a memory for storing data to execute a program, and a microprocessor for executing a program to perform calculations and commands. It can refer to a variety of devices, including:

In FIG. 2, each process is described as being executed sequentially, but this is only an illustrative explanation, and those skilled in the art can change the order shown in FIG. 2 and execute it without departing from the essential characteristics of the embodiments of the present invention. Alternatively, it may be applied through various modifications and modifications, such as executing one or more processes in parallel or adding other processes.

Operations according to the present embodiments may be implemented in the form of program instructions that can be performed through various computer means and recorded on a computer-readable medium. Computer-readable media refers to any media that participates in providing instructions to a processor for execution. Computer-readable media may include program instructions, data files, data structures, or combinations thereof. For example, there may be magnetic media, optical recording media, memory, etc. A computer program may be distributed over networked computer systems so that computer-readable code can be stored and executed in a distributed manner. Functional programs, codes, and code segments for implementing this embodiment can be easily deduced by programmers in the technical field to which this embodiment belongs.

These embodiments are intended to explain the technical idea of the present embodiment, and the scope of the technical idea of the present embodiment is not limited by these examples. The scope of protection of this embodiment should be interpreted in accordance with the claims below, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of rights of this embodiment.

10: Guided weapon
15: Metal fuselage
20: fastening screw
25: screw body

Claims (12)

In the guided weapon component history management system,
A guided weapon component mounted inside the metal body of the guided weapon and attached with a radio tag having a first antenna; and
It includes a fastening screw fastened to a screw groove of the metal body and having a second antenna,
As the fastening screw is inserted into the screw groove of the metal body, a signal path is formed between the second antenna and the wireless tag, and the first antenna and the second antenna form a parallel antenna structure. Guided weapon component history management system. According to paragraph 1,
The guided weapon components are,
the wireless tag having the first antenna for transmitting and receiving wireless signals;
A 1-1 conductor connected to the wireless tag to provide a signal path; and
A guided weapon component history management system comprising first and second conductors connected to the wireless tag and providing a signal path. According to paragraph 2,
The data chipset of the wireless tag stores the management number of the guided weapon component, the test report of the guided weapon component, and the input/output details of the guided weapon component. According to paragraph 2,
The 1-1 conductor is a guided weapon component history management system, characterized in that connected to the inner side of the screw groove of the metal body. According to paragraph 2,
The first-second conductor is connected to the inner bottom of the screw groove of the metal body. According to paragraph 1,
The fastening screw is,
A screw body formed into a rotatable structure;
a second antenna connected to the screw body and having an antenna pattern for transmitting and receiving wireless signals;
A 2-1 conductor connected to the second antenna to provide a signal path; and
A guided weapon component history management system comprising a 2-2 conductor connected to the second antenna and providing a signal path. According to clause 6,
The 2-1 conductor is a guided weapon component history management system, characterized in that it is formed in a structure exposed to the external side of the screw body. According to clause 6,
The 2-2 conductor is formed in a structure exposed to the outer bottom of the screw body across the center of the screw body,
A guided weapon component history management system, characterized in that the side of the 2-2 conductor is surrounded by a non-conductor. According to clause 6,
The second antenna is a guided weapon component history management system, characterized in that it is formed in a structure exposed to the external top of the screw body. According to clause 9,
The antenna pattern of the second antenna is formed in a wrinkled shape at positions radiating in four directions around the circumference of the driver insertion groove of the screw body. In the guided weapon component history management method using the guided weapon component history management system,
Attaching a wireless tag having a first antenna to a guided weapon component performing a predesigned function;
Mounting the guided weapon component to a metal body of the guided weapon;
fastening and fixing the guided weapon component to the metal body using a fastening screw having a second antenna;
forming a signal path between the second antenna and the wireless tag by inserting the fastening screw into a screw groove of the metal body; and
A guided weapon component history management method comprising the step of identifying information on the guided weapon component from the wireless tag located inside the metal body by performing wireless communication via the second antenna through a tag reader. According to clause 11,
Forming a signal path between the second antenna and the wireless tag includes:
Connecting the 1-1 conductor of the guided weapon component and the 1-2 conductor of the fastening screw by contacting each other,
A guided weapon component history management method, characterized in that the 1-2 conductor of the guided weapon component and the 2-2 conductor of the fastening screw are connected by contacting each other.

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