KR20110117365A - Bulletproof performance measurement system using 3 dimensional measuring instrument and bulletproof performance measurement method thereby - Google Patents

Abstract

The present invention provides a test unit comprising a ballistic film having a low elastic material and a ballistic material attached to one surface of the low elastic material, and an image recording unit including a three-dimensional measuring instrument for recording a collision shape formed by an impact material impinging on the ballistic film. And a data measuring unit 400 including an image converter configured to convert the image recorded by the 3D measuring instrument to the surface of the triangular point, and a data measuring unit 400 measuring the target data on the surface of the triangular point converted by the image converter. Bulletproof performance measurement system using a three-dimensional measuring instrument comprising a), a test step of firing the impact material on the bulletproof film 10 composed of a low elastic material and a bulletproof material attached to one surface of the low elastic material, After the impact material collides with (10), the collision shape formed by the collision of the impact material with a three-dimensional measuring instrument is described as a collision-shaped image 22. An image recording step, an image conversion step of converting an image of a collision shape recorded by a 3D measuring instrument to a surface of a triangular patch using an image converter, and a surface 33 of the triangular patch converted by the image converter to a data measuring device. By providing a ballistic performance measurement method using a three-dimensional measuring instrument comprising a data measurement step of measuring the target data by measuring, extracts the three-dimensional collision shape of the collision shape, and analyzes the three-dimensional collision shape of the collision shape By extracting three-dimensional data, based on the three-dimensional data can be bulletproof performance and bulletproof design of the bulletproof material.

Description

Bulletproof performance measurement system using 3D measuring instrument and bulletproof performance measuring method using same {Bulletproof performance measurement system using 3 dimensional measuring instrument and bulletproof performance measurement method

The present invention relates to a bulletproof performance measuring system and a bulletproof performance measuring method using a three-dimensional measuring instrument, to evaluate the ballistic performance of the bulletproof material by analyzing three-dimensional solid shape using a three-dimensional measuring instrument.

3D measurement technology is used in various fields such as medical, architecture, civil engineering, and clothing industry. The advantage of this three-dimensional measurement technology is that not only two-dimensional information of the height, width, and length of the subject, but also three-dimensional shape data can be obtained and compared and analyzed for more accurate three-dimensional shapes, and three-dimensional modeling is also possible.

In the conventional ballistic performance evaluation, only the depth information formed on the clay after the bullet shooting was evaluated to evaluate the ballistic performance of the ballistic material, and it was difficult to accurately measure and analyze the collision shape formed in the three-dimensional shape. There was a problem in the bulletproof performance and bulletproof material design of the bulletproof material.

The present invention was devised to solve the above problems, by recording a three-dimensional form of the collision shape formed on a low-elastic material using a three-dimensional measuring instrument, by analyzing the three-dimensional data height, width, angle To measure and analyze collision shape accurately by measuring at least one of volume, volume, surface area, circumferential length, volume and distance between two specific points, and based on this analysis There is this.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

As a technical idea for achieving the above object, the anti-ballistic performance measurement system using the three-dimensional measuring device of the present invention includes a test unit comprising a ballistic film having a low elastic material and a ballistic material attached to one surface of the low elastic material; An image recording unit comprising a three-dimensional measuring instrument for recording a collision shape formed by the impact material impinging on the bulletproof film; An image converter configured to convert an image recorded by the 3D measuring instrument into a surface of a triangular wave; And a data measuring unit configured to measure the target data on the surface of the triangular pachyma converted by the image converter.

Preferably, the low elastic material of the bulletproof film may use mud.

The image recording unit may directly record a collision shape formed by the impact material impinging on the bulletproof film.

The image recording unit may remove the antiballistic material from the low elastic material, remove the antiballistic material, and fill the shape molding material with a shape molding material in a collision shape formed by the impact material on the surface of the low elastic material. After the shape molding material is hardened, the collision shape formed on the surface of the shape molding material is extracted, and the shape-molded collision shape image is recorded.

The image converting unit converts an image recorded in the image recording unit into a plurality of point group data, and forms a triangle patch by analyzing the point group data, and forms a surface of the triangle patch by analyzing the triangle patch.

The data measuring unit measures any one or more of height, width, angle, volumetric volume, surface area, circumference length, volume, and distance between two specific points of the triangular parchment surface converted by the image converter.

Preferably, the ballistic performance measurement system using the three-dimensional measuring device includes a data output unit for outputting the data measured by the data measuring unit to the outside; It may further include a data storage for storing the data output from the data output unit.

Bulletproof performance measurement method using a three-dimensional measuring device of the present invention includes a test step of firing the impact material on the ballistic film consisting of a low elastic material and a ballistic material attached to one surface of the low elastic material; An image recording step of recording a collision shape formed by a collision of the impact material with a three-dimensional measuring instrument after the impact material collides with the bulletproof film as a collision-shaped image; An image conversion step of converting the collision-shaped image recorded by the three-dimensional measuring instrument to the surface 33 of the triangular wave using an image converter; And a data measuring step of measuring the target data by measuring the surface of the triangular wave converted by the image converter with a data measuring device.

The testing step comprises the step of installing the bulletproof material on the low-elastic material to configure the bulletproof film; And impinging the impact material on the bulletproof membrane.

The image recording step is characterized in that the step of directly recording the impact shape formed by the impact material collided with the low-elastic material to remove the ballistic material.

The image recording step may include removing the antiballistic material from the low elastic material; Removing the antiballistic material and filling the surface of the low elastic material with a shape molding material in a collision shape formed by the impact material impact; Extracting a collision shape formed on the surface of the shape molding material after the shape molding material is hardened; And recording the shape-molded impact shape as an image.

Preferably, the shape molding material may use any one of gypsum, cement, rubber, clay, and silicon.

The image converting step may include converting an image recorded in the image recording step into a plurality of point group data; Analyzing the point group data to form a triangular pachy; Analyzing the triangular pitch to form a surface of the triangular pitch; characterized in that comprises a.

The antiballistic performance measuring method using the three-dimensional measuring device includes an output step of outputting the data measured in the data measuring step to the outside; And a storing step of storing the output data after the outputting step.

According to the present invention, there is an effect that can extract a three-dimensional collision shape of the collision shape.

In addition, the three-dimensional data can be extracted by analyzing the three-dimensional collision shape of the collision shape, and based on the three-dimensional data has an effect that can be used for bulletproof performance and bulletproof design of the bulletproof material.

1 is a block diagram of a ballistic performance measurement system using a three-dimensional measuring instrument according to a preferred embodiment of the present invention.
2 is an embodiment of a method for measuring ballistic performance using a three-dimensional measuring instrument according to the present invention.
3 is a diagram of a collision shape formed on the low-elastic material recorded by the method of measuring ballistic performance using a three-dimensional measuring instrument according to the present invention.
4 is a flowchart illustrating a method for measuring bulletproof performance using a three-dimensional measuring instrument according to the present invention.
5 is another flowchart illustrating a method for measuring bulletproof performance using a three-dimensional measuring instrument according to the present invention.
FIG. 6 is a diagram illustrating data analysis of a bulletproof performance measuring method using the three-dimensional measuring instrument of FIG. 2.
FIG. 7 is a diagram illustrating a data measurement process of the bulletproof performance measuring method using the three-dimensional measuring instrument of FIG. 2.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a ballistic performance measurement system using a three-dimensional measuring instrument according to a preferred embodiment of the present invention, Figure 2 is an embodiment of a method for measuring ballistic performance using a three-dimensional measuring instrument, Figure 3 is a three-dimensional measuring instrument It is a figure of the impact shape formed on the low-elastic material recorded by the anti-ballistic performance measurement method using a, Fig. 4 is a flow chart showing a ballistic performance measurement method using a three-dimensional measuring instrument, Figure 5 is a ballistic performance measurement method using a three-dimensional measuring instrument FIG. 6 is a diagram illustrating data analysis of the bulletproof performance measuring method using the three-dimensional measuring instrument of FIG. 2, and FIG. 7 illustrates a data measuring process of the bulletproof performance measuring method using the three-dimensional measuring instrument of FIG. 2. Drawing.

As shown in FIG. 1, a bulletproof performance measuring system using a three-dimensional measuring instrument as a [first embodiment] of the present invention includes a ballistic film having a low elastic material and a ballistic material attached to one surface of the low elastic material ( 10) an image recording unit (200) consisting of a test unit (100) consisting of a three-dimensional measuring instrument for recording a collision shape (20) formed by an impact material impinging on a bulletproof film, and an image recorded by the three-dimensional measuring instrument. The image converter 300 includes an image converter for converting the surface of the triangular wave to a surface, and a data measuring unit 400 including a data measuring device for measuring the target data on the surface of the triangular wave converted by the image converter.

Therefore, when the impact material fired at a predetermined distance to the ballistic film 10 to test the performance of the ballistic material to the ballistic film 10 made of a ballistic material attached to one surface of the low elastic material, the collision shape 20 is The impact shape 20 formed on the low elastic material of the bulletproof film and formed by the collision is recorded as an image by a three-dimensional measuring instrument, and converted into the surface of the triangular patch by an image converter with a three-dimensional image analysis program. The ballistic analysis performance of the bulletproof material is measured by analyzing the impact shape 20 formed on the impact material by measuring the target data with a data measuring instrument having a built-in analysis program on the surface. Preferably, the ballistic performance measurement system using the three-dimensional measuring apparatus according to an embodiment of the present invention may use mud as a low elastic material constituting the ballistic film. Therefore, the impact shape of the impact material which collides with the bulletproof material can be formed in the low elastic material. However, the low-elastic material constituting the bulletproof film may be used other than mud material if the impact shape of the impact material can be formed.

In addition, the ballistic performance measurement system using a three-dimensional measuring apparatus according to an embodiment of the present invention, the three-dimensional measuring device constituting the image recording unit directly records the impact shape of the impact material. Therefore, when the impact material collides with the ballistic material and the impact shape is formed on the low elastic material, the impact material is recorded as an image using a three-dimensional measuring instrument. The three-dimensional measuring instrument shoots an infrared laser beam on the subject to reflect the reflection form of the infrared rays reflected from the subject. It is preferable that the low-elastic material is close to white because the infrared ray is absorbed by the black portion and the accurate three-dimensional shape is not obtained if there are many portions including black in the subject. However, the three-dimensional measuring instrument is not limited to using infrared rays.

In addition, the ballistic performance measurement system using a three-dimensional measuring instrument according to an embodiment of the present invention is another embodiment for recording the impact shape of the impact material using a three-dimensional measuring unit of the image recording unit to remove the ballistic material from the low-elastic material After the ballistic material is removed, the shape molding material is filled by filling the shape molding material into the collision shape 20 formed by the impact material impact on the surface of the low elastic material, and the impact shape formed on the surface of the shape molding material after the shape molding material is hardened. 21 may be extracted to record the shape-molded collision-shaped image 22. Therefore, when the impact material collides with the antiballistic material and the collision shape 20 is formed in the low elastic material, the impact shape 20 is filled with the shape molding material, and the handle is inserted to make it easy to separate the shape molded part. After the shape molding material is hardened, the impact shape 21 formed on the surface of the shape molding material is extracted, and an infrared laser is shot on the impact shape 21 formed on the surface of the shape molding material using a three-dimensional measuring instrument to record a three-dimensional image. Done. The method of extracting the impact shape 21 formed on the surface of the shape molding material using the shape molding has an advantage of extracting a more precise impact shape compared to the method of directly measuring the impact shape 20 of the impact material.

In addition, as illustrated in FIG. 6, in the antiballistic performance measuring system using the 3D measuring apparatus according to an embodiment of the present invention, the image converting unit 300 stores a plurality of point group data of an image recorded by the image recording unit 200. (31), the point group data 31 is analyzed to form a triangular wave 32, and the triangular wave 32 is analyzed to form a surface 33 of the triangular wave. In more detail, by analyzing the data consisting of the point group by connecting the three points to form a triangle, the process of forming a triangle can be repeatedly performed to form the entire surface of the triangular pachychi. The triangular facet forming method is one of methods for forming a face by analyzing point group data. However, the data analysis method is not limited to this.

In addition, as shown in Figure 7, in the ballistic performance measurement system using a three-dimensional measuring apparatus according to an embodiment of the present invention, the data measuring unit 400 is a triangular wave surface 33 converted by the image conversion unit 300 Measure at least one of height, width, angle, volume, surface area, circumference, volume, and distance between two specific points. Therefore, the two-dimensional measuring device can obtain only two-dimensional information such as the width and length of the collision site, but the three-dimensional measuring device of the present invention has a height, width, angle, volume volume, surface area, circumferential length, volume, and two specific points. By obtaining one or more three-dimensional information of the distance between the two-dimensional measurement to obtain a more accurate three-dimensional collision shape 21, it can be three-dimensional modeling using the data measured by the three-dimensional measuring instrument.

In addition, preferably the ballistic performance measurement system using a three-dimensional measuring apparatus according to an embodiment of the present invention, the data output unit 500 for outputting the data measured by the data measuring unit 400, and the data output unit ( It may further include a data storage unit 600 for storing the data output from the 500.

 Bulletproof performance measurement method using a three-dimensional measuring instrument as a [second embodiment] of the present invention, a ballistic film 10 composed of a low elastic material and a ballistic material attached to one surface of the low elastic material, as shown in FIG. Test step (S100) for firing the impact material in the), and the impact shape collides with the impact-resistant material on the ballistic film 10, the collision shape (20) formed by the impact material collision with a three-dimensional measuring image (22) Image recording step (S200) for recording in step S), an image conversion step (S300) for converting the collision-shaped image 22 recorded by the three-dimensional measuring instrument to the surface 33 of the triangular wave using an image converter, and the image It is composed of a data measuring step (S400) of measuring the target data by measuring the surface 33 of the triangular pachyma converted by the transducer with a data measuring device. Bulletproof performance measurement method using a three-dimensional measuring instrument of the present invention is a bulletproof film (ballistic material) fired at a predetermined distance to test the performance of the bulletproof material on the bulletproof film 10 made of a bulletproof material attached to one surface of a low elastic material ( 10) the impact shape 20 is formed on the low-elastic material of the bulletproof film, and the impact shape 20 formed by the collision is recorded as an image with a three-dimensional measuring instrument, and a three-dimensional image analysis program with a built-in image converter By converting the surface of the parchment, the surface of the triangular parchment by analyzing the target data with a data measuring instrument built-in analysis program to analyze the impact shape 20 formed on the impact material to measure the ballistic performance of the ballistic material.

Next, the test step (S100) of the anti-ballistic performance measurement method using the three-dimensional measuring instrument of the present invention will be described in more detail. The testing step (S100) of the anti-ballistic performance measurement method using the three-dimensional measuring instrument of the present invention comprises the step of installing the bulletproof material on the low elastic material (S101) and the anti-ballistic film (10) It is composed of a step (S102) to impact the impact material. Preferably, mud may be used for the low elastic material of the bulletproof performance measuring method using the three-dimensional measuring instrument of this invention. At this time, it is possible to form a collision shape of the impact material that collides with the bulletproof material. However, the low-elastic material constituting the bulletproof film may be used other than mud material if the impact shape of the impact material can be formed.

Next, the video recording step (S200) of the bulletproof performance measuring method using the three-dimensional measuring instrument of the present invention will be described in more detail. Image recording step (S200) of the anti-ballistic performance measurement method using the three-dimensional measuring instrument of the present invention may remove the ballistic material and directly record the impact shape 20 formed by the impact of the impact material impinged on the low-elastic material. . In the method of directly recording the impact shape 20 formed by the impact material impact, when the impact material collides with the ballistic material and the impact shape is formed on the low elastic material, the image is recorded using a 3D measuring instrument. The infrared laser is emitted to the subject to obtain the reflection form of the infrared rays. Preferably, when there are a lot of parts including black in the object, infrared rays are absorbed in the black part, and thus an accurate three-dimensional shape cannot be obtained. Low-elastic materials should be close to white. However, the three-dimensional measuring instrument is not limited to using infrared rays.

In addition, as another embodiment of the method for measuring bulletproof performance using the three-dimensional measuring instrument of the present invention, the image recording step (S200) is a step of removing the bulletproof material from the low-elastic material (S201), and after removing the bulletproof material Forming the shape molding material by filling the shape molding material into the impact shape 20 formed by the impact material impact on the surface of the elastic material (S202), and the impact shape formed on the surface of the shape molding material after the shape molding material is hardened (21) ) And extracting the shape-molded collision shape 21 as an image (S204). In more detail, when the impact material collides with the antiballistic material and the collision shape 20 is formed in the low elastic material, the impact shape 20 is filled with the shape molding material, and the shape molded part is conveniently separated. In order to insert the handle, the shape molding material is hardened and the impact shape 21 formed on the surface of the shape molding material is extracted, and an infrared laser is directed to the impact shape 21 formed on the surface of the shape molding material using a three-dimensional measuring instrument. Record the 3D image. Preferably, the shape molding material of the antiballistic performance measuring method using the three-dimensional measuring instrument of the present invention may be any one of gypsum, cement, rubber, clay, silicon.

Next, the image conversion step (S300) of the bulletproof performance measuring method using the three-dimensional measuring instrument of the present invention will be described in detail. The image conversion step (S300) of the bulletproof performance measurement method using the three-dimensional measuring instrument of the present invention is a step (S301) for converting the image recorded in the image recording step (S200) to a plurality of point group data 31 (S301), and the point group data ( And analyzing step 31 to form a triangular patch 32 (S302), and analyzing the triangle patch 32 to form a surface 33 of the triangular patch (S303). In more detail about the image conversion step (S300) by this method, by analyzing the data consisting of the group of points to form a triangle by connecting the three points, the process of forming the triangle repeatedly to repeat the overall shape It is possible to form a facet of the triangular patch, and to measure any one or more of the height, width, angle, volumetric volume, surface area, circumference length, volume, and distance between two specific points of the triangular patch surface 33. The triangular facet forming method is one of methods for forming a face by analyzing point group data. However, the data analysis method is not limited to this.

Preferably, the anti-ballistic performance measuring method using the three-dimensional measuring instrument of the present invention outputs the data measured in the data measuring step (S400) (S500) and the data output after the output step (S500) It may further include a storing step (S600) for storing.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art may implement the present invention in other specific forms without changing the technical spirit or essential features of the present invention. You will understand that. Accordingly, the embodiments described above are exemplary in all respects and not restrictive.

The present invention can extract the three-dimensional data by analyzing the three-dimensional collision shape of the collision shape, and based on the three-dimensional data has the effect that can be used for bulletproof performance and bulletproof design of the bulletproof material Very useful.

10: bulletproof film
20: collision shape
21: collision shape formed by the impact of the impact material
22: collision-shaped image
31: Point group data
32: triangle pachi
33: surface of triangular pachi
100: test part
200: video recording unit
300: image conversion unit
400: data measuring unit
500: Data output part
600: data storage

Claims (15)

A test part including a ballistic film having a low elastic material and a ballistic material attached to one surface of the low elastic material;
An image recording unit configured to record a collision shape formed by the impact material impinging on the bulletproof film;
An image converter configured to convert an image recorded by the 3D measuring instrument into a surface of a triangular wave;
And a data measuring unit configured to measure object data on the surface of the triangular pachyma converted by the image converter. The method of claim 1,
The three-dimensional ballistic performance measurement system, characterized in that the low-elastic material of the bulletproof film is mud. The method of claim 1,
The video recording unit,
The three-dimensional ballistic performance measurement system, characterized in that for directly recording the impact shape formed by the impact material impinged on the bulletproof film. The method of claim 1,
The video recording unit,
The anti-ballistic material is removed from the low elastic material, the anti-ballistic material is removed, and the shape molding material is filled by filling a shape molding material into a collision shape formed by the impact material impact on the surface of the low elastic material. And a collision shape formed on the surface of the shape molding material after hardening, and records the shape molded collision shape image. The method of claim 1,
The image converter,
Converting an image recorded by the image recording unit into a plurality of point group data, analyzing the point group data to form a triangular patch, and analyzing the triangular point to form a surface of the triangular patch. Measurement system. The method of claim 1,
The data measuring unit,
And measuring at least one of a height, a width, an angle, a volumetric volume, a surface area, a perimeter, and a distance between two specific points of the triangular parchment surface converted by the image converter. The method of claim 1,
A data output unit configured to output data measured by the data measuring unit to the outside;
And a data storage unit for storing data output from the data output unit. A test step of firing an impact material on a ballistic film made of a low elastic material and a ballistic material attached to one surface of the low elastic material;
An image recording step of recording a collision shape formed by a collision of the impact material with a three-dimensional measuring instrument after the impact material collides with the bulletproof film as a collision-shaped image;
An image conversion step of converting an image of a collision shape recorded by the three-dimensional measuring instrument into a surface of a triangular wave using an image converter;
And a data measuring step of measuring the target data by measuring the surface of the triangular pachyma converted by the image converter with a data measuring device. The method of claim 8,
The test step,
Installing the bulletproof material on the low elastic material to form the bulletproof film;
And impinging an impact material on the bulletproof film. The method of claim 8,
The low elastic material is a three-dimensional ballistic performance measurement method, characterized in that the mud. The method according to claim 8 or 9,
The video recording step,
Removing the ballistic material and directly recording a collision shape formed by the impact of the impact material colliding with the low-elastic material. The method according to claim 8 or 9,
The video recording step,
Removing the antiballistic material from the low elastic material;
Removing the ballistic material and filling the surface of the low elastic material with a shape molding material in a collision shape formed by the impact material impact;
Extracting a collision shape formed on the surface of the shape molding material after the shape molding material is hardened;
And recording the shape-molded impact shape as an image. The method of claim 12,
And the shape molding material is any one selected from the group consisting of gypsum, cement, rubber, clay, and silicon. The method of claim 8,
The image conversion step,
Converting the image recorded in the image recording step into a plurality of point group data;
Analyzing the point group data to form a triangular pachy;
Analyzing the triangles to form a surface of the triangles; the three-dimensional ballistic performance measurement method comprising a. The method of claim 8,
An output step of outputting the data measured in the data measurement step to the outside;
And a storing step of storing the output data after the outputting step.

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