KR102061453B1 - Bulletproof glass and its manufacturing method - Google Patents

Abstract

The present invention relates to bulletproof glass and a manufacturing method thereof. The bulletproof glass comprises: a glass plate alternatively selected from ordinary glass, thermally tempered glass, and chemically tempered glass; and a bulletproof explosion-proof film attached to both surfaces or one surface of the glass plate, wherein the bulletproof explosion-proof film is selected from groups of polyethylene and polyurethane, the bulletproof explosion-proof film has a thickness of 380-580 μ, and the bulletproof explosion-proof film is made of one layer or multilayers. Therefore, the excellent and lightweight bulletproof glass is provided by increasing the number of applying bulletproof explosion-proof and sag-bonding films with high transparency and high tensile strength, and the number of impact-absorbing laminated film layers when firearm bulletproofness and the penetration resistance of a projection impact body are required.

Description

Bulletproof glass and its manufacturing method

The present invention relates to bulletproof glass and a method of manufacturing the same, and more particularly, to firearms having a ballistic force and a projectile having a similarity, to a shock or pressure such as an explosion (grenade, landmine, cremoa, gas, etc.). The present invention relates to an optimal anti-ballistic glass and a method of manufacturing the same for minimizing the probability of rupture of glass even under heavy loads.

In general, bulletproof glass joins a plurality of layers of films in the direction of the impact body or in the opposite direction of the load direction (resistance direction) to a plurality of glasses (including application of general glass, heat-reinforced glass, and chemical-reinforced glass according to the use or required characteristics). It is designed to have impact resistance and load resistance.

Bulletproof glass can be made by increasing the thickness of the glass to be protected by the impact body, by overlapping it in several layers, or by overlapping or bonding the layers.

In the related art, the thicker the glass, the thicker the frame, and the disadvantages are generated, and the use of multiple layers of glass decreases the transparency and increases the probability of breaking one glass (relatively one glass is thinner).

In addition, there has been a conventional method of bonding a polyester film to glass multiple layers, ballistics and lightweight can be reduced, but this has the disadvantage of reduced transparency due to the yellowing phenomenon by the oxidation reaction.

There is also a method of manufacturing bulletproof glass in which a plastic or acrylic or polycarbonate is inserted between a plurality of glass, but the protection is excellent, but it helps to reduce the weight, but due to the difference in material characteristics, If the color change occurs or the plastic is located in the innermost surface scratches easily occur to avoid recently.

In addition, bulletproof glass inserts a film between the laminated films when bonding a plurality of glass to the laminated film, which also has features such as ballistic resistance and light weight, but burst when a very large weight (dynamic load, static load) is applied There is a lack of suitability for strength and flexural strength.

Korean Utility Model Application No. 20-2006-0021626

The present invention has been made to solve the problems of the prior art, it is used as a window glass, automobile glass, marine glass of the building which requires special performance of protection and floor glass for landscape tourism, which is very large or variable load of dynamic load, static load. To do that.

Naturally, it has the ultraviolet ray inhibition property and the excellent transmittance | permeability, and it is related with manufacture of the bulletproof glass which has the outstanding characteristic also a bulletproof property, an impact resistance, and a load resistance.

1. An object of the present invention described above, the glass plate is selected from among the common glass, thermally strengthened glass, chemically strengthened glass; Bulletproof explosion-proof film attached to both sides or one surface of the glass plate; including, the bulletproof explosion-proof film is selected from the group of polyester, polyethylene, polyurethane, the bulletproof explosion-proof film has a thickness of 380 ~ 580μ, the bulletproof explosion-proof The film can be achieved by bulletproof glass which is laminated in one layer or multiple layers.

Characterized in that it further comprises; a laminated film attached to the back of the bulletproof explosion-proof film.

The bonding film is a PVB (Polyvinyl butyral) material, it is characterized in that it is bonded to each other in one or multiple layers of plywood.

And a second glass plate attached to the bonding film.

The second glass plate is characterized by being attached by an adhesive applied to the bulletproof explosion-proof film attached to the bonding film.

The glass is characterized in that the normal glass or functional glass.

The functional glass is characterized in that the thermally strengthened glass, chemically strengthened glass or other functional glass with increased physical properties.

On the other hand, another object of the present invention, the plurality of glass plates are spaced apart to have a predetermined interval formed in the receiving portion, the finishing material is coupled to block the edges of the plurality of spaced glass plates; UV liquid phase is filled in the receiving portion; can be achieved by the bullet-proof glass that the UV liquid phase is cured.

2. The object of the present invention described above is for use in firearms and similarly projected impact bodies, weapons explosions, large surface area pressure waves, crowded loads, or transmissive glass to which high loads such as vehicles are applied. The present invention relates to the production of bulletproof glass, in which a bulletproof explosion-proof and a deflection bonding film are laminated to a protective direction (resistance direction, protect side) of a glass located in the outermost direction (impact / load direction, impact side), It not only prevents the glass from anti-yield, but also makes it resistant to shocks and pressure waves. It also bonds explosion-proof film to other glass located in the inward direction. It can be achieved by a method for producing a bulletproof glass, characterized in that the adhesive selectively according to the protection requirements.

In the above, the bullet-proof explosion-proof and sagging bonding film is bonded to a glass film (polyvinyl butyral) for buffer buffering.

The bonding film may be made by using one layer or bonding a plurality of layers with respect to an absolute thickness.

According to the present invention, when bulletproof bulletproofness and penetration resistance of a projecting impactor are required, the bulletproof explosion-proof and sagging bonded film of high transparency and high tensile strength are increased, and the number of impact-absorbing laminated film layers is increased, thereby providing a more lightweight excellent bulletproof glass.

In addition, by bonding the bonding film in a multi-layered structure with the same thickness, it is possible to have the effect of winding the rotational force of ballistics and the effect of increasing the resistance.

Figure 1a is a cross-sectional view showing a bulletproof glass according to the present invention,
Figure 1b is a cross-sectional view showing a bulletproof glass according to another embodiment of the present invention,
2 is a process flow diagram illustrating a method of manufacturing bulletproof glass according to the present invention;
3a and 3b is a bulletproof glass thickness of 36mm of the present invention, a photograph showing the results of the test evaluation of the bulletproof performance for firearm 5.56x45mm 7N10 armored bullet (based on the military shooting field actual test evaluation),
Figure 4a and 4b is a bulletproof glass thickness of 38mm of the present invention, the results of the test evaluation of the bulletproof performance for the 7.62x51mm M-60 machine rifle (picture based on the test report of a certified institution>,
Figure 5 is a bulletproof glass thickness of 55mm of the present invention, the results of the test evaluation of the five bullet-proof bulletproof performance for the 7.62x51mm M-60 machine rifle (picture based on the test report of a certified institution>,
Figure 6 is a bulletproof glass thickness of 12mm of the present invention, a photograph showing the results of the test evaluation of the bulletproof performance for the 38-caliber pistol (based on the police shooting range indoor shot),
Figure 7a and 7b is a bulletproof glass thickness of 38mm of the present invention, a photograph showing a three-ton actual load test (based on the government office witness test) for flooring use,
8a and 8b is a bulletproof glass thickness of 38mm of the present invention, a photograph showing an example of being used for bridges, bridges, 30 meters above the air,
9a and 9b is a bulletproof glass thickness of 24mm of the present invention, a test evaluation of the bulletproof performance for a 5.56x45mm k-1 gun (based on the gun shooting range test) showing the example of the installation of bulletproof glass of minesweeper excavator Photo,
10a and 10b is a bulletproof glass thickness of 22mm of the present invention, a photograph showing the results of the test evaluation of the bulletproof performance for the 5.56x45mm k-2 rifle (based on the test report of a certified institution),
Figure 11 and Figure 12 is a bulletproof glass thickness of 55mm of the present invention, 100 meters, 200 meters above the sky tower, a picture showing an example of being used as a flooring material of the skywalk.

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

The following terms are defined in consideration of functions in the present invention, which indicates that the concept is to be interpreted in a concept consistent with the technical idea of the present invention and in the meaning commonly understood or commonly recognized in the art.

In addition, when it is determined that the detailed description of known functions or configurations related to the present invention may obscure the gist of the present invention, the detailed description thereof will be omitted.

Here, the accompanying drawings show an exaggerated or simplified part of the description and description for the convenience and clarity of the construction and operation of the technology, and each component does not exactly match the actual size.

As shown in Figure 1, the bulletproof glass according to the present invention,

Glass plate 100 which is selected from ordinary glass, thermally strengthened glass, and chemically strengthened glass;

It includes; a bulletproof explosion-proof film 200 is attached to both or one side of the glass plate 100.

The bulletproof explosion-proof film 200 is selected from the group of polyester, polyethylene, polyurethane.

Preferably, the bulletproof explosion-proof film 200 has a thickness of 380 to 580 μm (microns), and the bulletproof explosion-proof film 200 is formed by stacking one layer or multiple layers.

Explosion-proof explosion-proof film 200 can not exhibit the expected performance when the thickness is less than 380μ (micron), the weight is heavy and expensive if the 580μ (micron) or more.

Meanwhile, the bonding film 300 attached to the rear surface of the bulletproof explosion-proof film 200 may be further included.

The bonding film 300 is preferably a polyvinyl butyral (PVB) material.

The bonding film 300 may be formed in one layer or bonded to each other by a plurality of layers of plywood.

Preferably, the bonding film 300 is laminated in two layers of a bonding film having a thickness of at least 380 μ (micron) for shock relaxation and resistance.

Alternatively, the bonding film 300 is formed by stacking the bonding film 300 having a thickness of 380 μ (micron) into 3 to 10 layers as the total firepower increases.

Alternatively, the bonding film 300 has a thickness of 760 μ (micron) to counter a large firearm, and is laminated with a number of layers selected from 1 to 6 layers.

Meanwhile, the second glass plate 100 attached to the bonding film 300 may be further included.

The second glass plate 100 is attached by an adhesive applied to the bulletproof explosion-proof film 200 attached to the bonding film 300.

As described above, the glass plate 100 may be made of ordinary glass or functional glass.

The functional glass is thermally strengthened glass, chemically strengthened glass or other functional glass with increased physical properties, thereby increasing the anti-ballistic effect.

The glass used is ordinary glass (non-heat-treated glass, glass without grain boundaries, ordinary glass, non-tempered glass), and heat-reinforced glass (heat-treated glass, crystal grain boundary glass) according to the use and required characteristics Depending on the use of tempered glass, annealed glass) or chemically tempered glass (chemically tempered glass), the effect varies or becomes effective.

According to one embodiment the present invention includes two glass plates 100,

Bulletproof explosion-proof film 200 and the bonding film 300 is bonded to one side of both surfaces or the resistance surface of the inner glass plate 100.

Alternatively, according to another example, the present invention comprises three glass plates 100, the bulletproof explosion-proof film 200 and the bonding film 300 is formed on one side of the resistance surface.

This serves as a secondary protection when the outermost glass is penetrated or forced through. Depending on the type of bullet, the thickness of the glass, the number of sheets, and the type of film are different.

Bulletproof explosion-proof film 200, that is, bulletproof blast resistant & anti-yield film is a three-layer polyester film, transmittance of 87% or more, tensile strength 420 ~ 500 N / 10mm, adhesive strength 2-4 N / 10mm has basic characteristics.

Or polyethylene or polyurethane (polyurethane) more than the above-described physical properties can be used instead.

Meanwhile, according to another embodiment A2, as shown in FIG. 1B,

A plurality of glass plates 100 having a bulletproof explosion-proof film 200 is attached to the rear surface to be spaced apart at a predetermined interval so that the receiving portion 120 is formed inside,

Finishing material 140 is coupled to block the edge of the plurality of spaced glass plate 100;

After filling the UV liquid 400 in the receiving portion 120 is completed by curing.

Since the adhesive film is not used, transparency can be improved, and the adhesion process can be reduced, thereby reducing the cost.

The glass plate 100 according to the above-described embodiment may be used in a variety of thickness of 4 ~ 19mm. Of course, this is only an example and need not necessarily be limited thereto.

Meanwhile, the method for manufacturing the bulletproof glass according to the present invention described above will be described with reference to FIG. 2.

One step (S1) of preparing a glass plate 100 is selected from among the common glass, thermally strengthened glass, chemically strengthened glass;

Two-step (S2) of attaching and stacking the bulletproof explosion-proof film 200 in one layer or multiple layers on both surfaces or one surface of the glass plate 100;

It comprises a; 3 step (S3) for attaching the bonding film 300 on the back surface of the bulletproof explosion-proof film 200.

After the third step (S3) it may further comprise a four step (S4) and the curing step of attaching the second glass plate 100 to the bonding film 300.

Thereafter, a process of sequentially attaching the other bulletproof explosion-proof film 200, the bonding film 300, and the glass plate 100 on the rear surface of the second glass plate 100 may be repeatedly performed.

Therefore, the anti-ballistic explosion-proof film 200 and the sag-resistant bonding film 300 are laminated to the protective direction (resistance direction, protect side) of the glass located in the outermost direction (impact / load direction, impact side) to the weight load. It not only anti-yields the glass, but also makes it resistant to shocks and pressure waves. It also bonds explosion-proof film to other glass in the inner direction. The outermost glass is essential and the inner glass is protected. It is a selective bonding according to the requirements.

Experimental Example

The bulletproof explosion-proof film 200 and the laminated film 300 is used in two of the thickness of 380μ (micron) and 480μ (micron), and when the impact or load is large 480μ (micron) is used. The physical property details of this film are shown in (Table 1).

<Table 1> Physical Properties of Bulletproof and Sagging Bonded Films (Based on Test Report of Certified Institution)

The bulletproof glass of the present invention has undergone many experimental procedures and test verifications, and it can be seen that it is superior to any other type of bulletproof glass, and has an excellent effect and wide application.

[Table 2] shows the test results based on the test results verified and tested by an accredited test institute for the bulletproof performance, fracture resistance, and environmental performance (test report of a certified institution) of the following bulletproof glass.

Meanwhile, the performance test for the bulletproof glass according to the embodiment of the present invention will be described with reference to actual pictures.

Referring to Figure 3a and 3b, the bulletproof glass thickness of 36mm of the present invention, a photograph showing the results of the test evaluation of the bulletproof performance for the gun 5.56x45mm 7N10 armored shell (based on the military shooting field actual shooting test).

Observing both the direction of the shooting warhead and the direction of protection, it can be seen that the performance is satisfied by confirming the non-penetration.

Figures 4a and 4b is a bulletproof glass thickness of 38mm of the present invention, the results of the test evaluation of the bulletproof performance for the 7.62x51mm M-60 machine rifle (the basis of the test report of a certified engine) is a photograph showing.

Observing both the direction of the shooting warhead and the direction of protection, it can be seen that the performance is satisfied by confirming the non-penetration.

5 is a photograph of the bulletproof glass thickness of the present invention 55mm, the results of the test evaluation of the bullet-proof ballistic performance of the 7.62x51mm M-60 machine rifle (based on the test report of a certified engine).

By observing the direction of the shooting warhead, we can confirm that the performance is satisfied by confirming the non-penetration.

Figure 6 is a bulletproof glass thickness of 12mm of the present invention, a photograph showing the results of the test evaluation of the bulletproof performance for the 38-caliber pistol (based on the police shooting range shooting range).

Observing the direction of protection, we can confirm that the performance is satisfied by confirming the non-perforation.

Figure 7a and 7b is a bulletproof glass thickness of 38mm of the present invention, a photograph showing a three-ton actual load test (based on the government office attendance test) for flooring use.

A static load test of 3 tons was conducted to confirm that there was no breakage.

8A and 8B are bulletproof glass thickness of 38mm of the present invention, a photograph showing an example of being used for bridges and bridges over 30 meters.

By applying the bulletproof glass of the present invention as a flooring material it was possible to protect the safety of pedestrians.

Figures 9a and 9b is a bulletproof glass thickness of 24mm of the present invention, showing the bulletproof glass installation example of the minesweeper excavator according to the results of the test evaluation of the bulletproof performance for the 5.56x45mm k-1 gun (based on the indoor shooting range test) It is a photograph.

Unpenetrating was confirmed and the protection performance was met and applied to military equipment.

Figures 10a and 10b is a picture of the bulletproof glass thickness 22mm of the present invention, the results of the test evaluation of the bulletproof performance for the 5.56x45mm k-2 rifle (based on the test report of a certified institution).

Observing both the direction of the shooting warhead and the direction of protection, it can be seen that the performance is satisfied by confirming the non-penetration.

11 and 12 are 55 mm thick bullet-proof glass of the present invention, is a photograph showing an example of being used as a floor of the sky tower, skywalk of 100 meters, 200 meters of the sky height.

Even under the load of multiple pedestrians, it was able to withstand damage.

In conclusion, in the case of the bulletproof glass 24mm according to the present invention, the high transparency is 81.6%, and it can be seen that it has protection power even in the 5.56x45mm bullets of the K-1, K-2, and M-16 rifle.

In the case of the bulletproof glass 38mm according to the present invention, it can be seen that the M-60 sniper rifle boasting considerable fire protection even at a high bullet speed of 7.62x51mm bullets.In the case of transparency, MIL-D-5485D is an international standard. The transparency of the corresponding thickness is 68%, 71.4% was found to be a very high level.

The present invention is not limited to the above-described embodiments and the accompanying drawings, and various modifications and applications that are not illustrated without departing from the technical spirit of the present invention are possible, as well as substitutions and other equivalent embodiments of the components. Modifications and applications related to the features of the present invention should be construed as being included within the scope of the present invention as such may be changed.

100: glass plate 120: accommodating part
140: finish 200: bulletproof explosion-proof film
300: bonding film 400: UV liquid

Claims (8)

Glass plate alternatively selected from ordinary glass, thermally tempered glass, and chemically tempered glass;
Including; bulletproof explosion-proof film attached to both sides or one surface of the glass plate;
The bulletproof explosion-proof film is selected from the group of polyethylene, polyurethane,
The bulletproof explosion-proof film has a thickness of 380 ~ 580μ (micron),
The bulletproof explosion-proof film is made of a multi-layer laminated,
Includes; the laminated film attached to the rear surface of the bulletproof explosion-proof film,
The bonding film is made of polyvinyl butyral (PVB) material, and is made of a plurality of layers of laminate,
Bulletproof glass comprising a; second glass plate attached to the bonding film. delete delete delete A plurality of glass plates with a bulletproof explosion-proof film is attached to the back side to be spaced apart to have a predetermined interval, the receiving portion is formed inside,
Finishing material is coupled to block the edge of the plurality of spaced glass plate;
UV liquid filled in the receiving portion; includes;
The UV liquid phase is cured,
The bulletproof explosion-proof film is to be selected from the group of polyethylene, polyurethane,
The bulletproof explosion-proof film is a thickness of 380 ~ 580μ (micron), is made of a multi-layer laminated,
Bulletproof glass, characterized in that the plurality of glass plates are thermally strengthened glass, chemically strengthened glass.
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