KR200421323Y1 - Bulletproof glass and different meaning manufacturing method - Google Patents

Abstract

The present invention uses hot melt adhesive to bond both sides of glass (PET) and glass of curved glass mainly used in flat glass and automobiles. The present invention relates to a bulletproof glass and a manufacturing means that are multi-laminated, and to reduce the thickness and weight per unit volume of the bulletproof glass, which is a major problem, and to maximize the performance of the bulletproof glass. It has a strong energy absorbing force, stronger impact force, stronger tensile strength, stronger impact energy absorbing force for penetration resistance, transparent bulletproof glass with excellent adhesion, and a bulletproof glass with controlled visible light transmittance. will be.

In order to achieve the above object, in the present invention, a laminate means of an EVA (Ethylene-vinyl Acetate) hot melt adhesive layer laminated on both sides of PET (polyester) used for glass bonding, and a PU (polyurethane) hot melt The method of the present invention comprising an adhesive layer laminating means and a polyvinyl butyral hot melt adhesive layer means is simpler in manufacturing process than conventional bulletproof glass and saves energy by maximizing efficiency and reducing material production cost. It is about how to maximize economic value.

Bulletproof glass thickness reduction, weight reduction, impact energy absorption capacity improvement, tensile strength increase, durability increase, adhesive strength improvement, solar radiation block

Description

Bulletproof glass laminated film {Bulletproof glass and different meaning manufacturing method}

1 is a perspective view of a conventional product bonded

Figure 2 is a perspective view of the laminated bulletproof glass according to the present invention

Figure 3 is a perspective view of the bonding (laminating) used in the present invention

The present invention relates to a bulletproof glass that can be applied to flat glass of glass or curved glass of automobiles and a method of manufacturing the same, and to measure the thickness and weight per unit volume of glass after a mult-laminated glass composite. It is a manufacturing method that can obtain transparent bulletproof glass that can greatly reduce, stronger impact force, excellent tensile strength, stronger impact energy absorption power for penetration resistance, and better control of visible light transmittance. The present invention relates to a bulletproof glass device that has been developed as a product that increases energy efficiency by increasing efficiency as well as saving energy due to a simple manufacturing process.

Generally, laminated safety glass or tempered glass or thick glass is used to protect human life and property from glass scattering caused by earthquake, tsunami, typhoon, or blast and fire, artificial throwing or intrusion by tools. It is used to attach shatterproof glass film to general glass.

However, in weapons for firearms with firearms, firearms or more, the glass materials mentioned above cannot be used to protect property and life. Therefore, two or more pieces of glass are used as bulletproof glass. The purpose of using bulletproof glass is to allow time to escape after the first hit.

Therefore, the conditions for maximizing the performance of bulletproof glass are high elasticity, high toughness, shock wave propagation speed, and elongation. It is maximized by controlling failure mode and shock energy absorption transmission for each fault.

It is installed in many places where safety is the first priority of national institutions and government offices, specific buildings for special protection purposes, and places where use is clear. Therefore, bulletproof glass is designed and manufactured in a different thickness depending on the performance or standards of firearms and firearms. For example, to ensure safety from a 38-caliber pistol, two or more layers of glass must be laminated and the glass must be at least 15 mm thick.

Therefore, the conventional bulletproof glass bonding method is a disadvantage of the post-treatment of the adhesive material and the impact resistance and tensile strength is weak, the thickness of the glass is thick, the weight is disadvantageous high energy loss during manufacturing is not economical.

Also, in order to be safe from more firearms and firearms, the weight of the glass is rapidly increasing because the thickness of the glass must be made in a thicker shape, which is not applicable to buildings or automobiles due to the volume and weight of the bulletproof glass itself. This requires a very complex design, wastes additional expensive materials to support the weight, and inevitably leads to cost increases in production and processing, resulting in economic losses.

Therefore, the present invention draws the maximum efficiency with the performance of impact energy absorption to maximize the performance of the bulletproof glass than the conventional bulletproof laminated glass, and greatly reduce the production process and material cost by reducing the manufacturing process efficiency The study was carried out to increase. In order to increase the efficiency, the thickness of bulletproof glass as well as the volume and weight are greatly reduced, making it more resistant to impact, maximizing impact energy absorption and transmission, which is essential for penetration resistance with excellent tensile strength, and cost due to excellent adhesive strength. To achieve savings and economic value.

In order to achieve the above object, in the present invention, in order to improve the performance of bulletproof glass and enhance efficiency, EVA (Ethylene-), which is a polymer resin of 15 to 120 μm thick, is laminated on both sides of a thermoplastic elastomer, PET (polyester). It is also formed of a vinyl acetate hot melt adhesive layer or a PVB (polyvinyl butyral) hot melt adhesive layer, which is a thermoplastic vinyl plastic.

In addition, a PU (polyurethane) hot melt adhesive layer having a thickness of 15 to 120 µm was formed to bind to the glass and the glass, thereby forming a bulletproof glass by heat and pressure in the compressed air state. .

Considering this concept, the bulletproof glass according to the present invention is the same as FIG. 2 and FIG. The detailed description will be described later.

First, the conventional bonding structure of bulletproof glass will be described. As shown in FIG. 1, there is a glass portion 10 formed of plate glass, and between the centers thereof, a PVB (polyvinyl butyral) resin film, which is a glass bonding compound, is bonded to heat. There existed the method of manufacturing laminated glass through the process by laminating | stacking. As is well known, the glass thickness of the glass part 10 may be made of glass having a minimum thickness of 3mm to a maximum of 12mm, and two or more bulletproof glasses may be manufactured in the same glass thickness. According to the through-resistance performance in consideration of the thickness of each glass plate to form a laminated glass, when manufacturing a bulletproof glass in a multilayer, the laminated film 20 is generally 0,350mm in the bonding film of the maximum 1,20mm thickness binding It is made of laminated safety glass or bulletproof glass. However, this conventional method is disadvantageous in the post-treatment problem of the adhesive material and the impact resistance and tensile strength is weak, and the thickness of the glass is so thick that the weight loss due to high energy loss during manufacturing is not economical.

Figure 2 is a block diagram according to the bonding belonging to the method of manufacturing bulletproof glass according to the present invention.

Bonding film 50 formed of EVA hot melt adhesive layer 40 having a thickness of 15 to 120 ㎛ laminated on both sides 40 of the thermoplastic elastomer PET 30 between the glass 10 and the center of the glass 10 portion. The glass portion 10 and the hot melt adhesive layer 40 are formed into flat or curved bulletproof glass by heat and pressure.

The hot melt adhesive layer laminated on both surfaces of the PET to be bonded to the space between the glass and glass is not necessarily polymer polymer EVA (Ethylene-vinyl Acetate), but is a vinyl plastic PVB (polyvinyl butyral) hot melt adhesive layer. It can also be used as a polyurethane (HOT) hot melt adhesive layer. In addition, the thickness of the glass 10 may be designed to be the same or different when bonding three or more pieces of glass parts 10 in combination, and the thickness of the glass parts 10 may be applied to 3mm ~ 12mm. , Bulletproof glass for buildings (flat glass) according to the present invention up to 89mm, curved bulletproof glass mainly used for automobiles are molded up to 48mm.

As shown in FIG. 3, the bonding film 50 has a hot melt type of EVA, PVB, PU, etc., which is laminated on both sides of the PET (polyester) PET 30, which is a thermoplastic elastomer. It is formed of a laminated film.

Since such a bonding film is made in a continuous manner, it can be expected to greatly improve the quality of the product, such as transparency and adhesive strength.

In addition, as shown in FIG. 3, the shape of the bonding film 50 may be variously designed. PET (30) layer can be produced by adjusting the thickness of the PET according to impact strength, tensile strength, durability and penetration resistance from 50㎛ to 550㎛ according to the performance and standards of firearms or firearms, in transparent bulletproof glass It is designed to control the visible light transmittance from 5% to 75%, and is designed in colors such as Silver, Neutral, Gray, Green, Smoke, etc. It blocks the sun's radiant heat and saves energy by reducing the heating and cooling costs in the room. It is also manufactured from glass.

As described above, the bonding film 50 formed on the mutually symmetrical surface between the glass and the glass is bound and processed into PET 30, which is the thermoplastic elastomer having the best tensile strength and penetration resistance. The weight is greatly reduced, and the impact energy absorption ability due to the excellent tensile strength is enhanced, so it is very resistant to penetration resistance and impact force, leading to maximum efficiency as a performance and functionality for bulletproof glass.

Therefore, according to the present invention, the manufacturing process is reduced to buildings and automobiles, which saves resources and energy for production facilities, and is very economical, which can greatly expect the quality improvement of the product due to cost reduction due to the efficiency increase for productivity. There is a wagon.

Claims (1)

In the bulletproof glass which multi-laminated three or more sheets of flat glass and curved glass; A layer of polyester film 30 having a thickness of 0,1 to 2,0 mm, which is laminated in a space portion between the glass 10 and the glass 10, Bulletproof glass laminated film, characterized in that it comprises a PU (Polyurethan) hot melt (PU) hot melt adhesive layer having a thickness of 0,38 ~ 2,0mm laminated on both sides 20 of the film 30.

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