EP3309500A1 - Framed, transparent and bullet resistant glasing with enforced boundary - Google Patents

Abstract

Shelling-inhibiting glazing (1) with reinforced edge area (9.1) according to FIG. 3, comprising - a ballistic block (2) ,, - A reinforcing profile (10) as edge reinforcement, the complete or in at least two segments (10.1, 10.2) than - U-profile (10) at least one L-profile (10) on the attack side A and / or the protective side S, at least one flat profile (10) on the attack side A and / or the protective side S, - L-profile (10) and flat profile (10) on opposite sides of the ballistic block (2) rotates, wherein - The reinforcing profiles (10) or the segments (10.1, 10.2) are constructed of the same material or different materials and / or the same height or different heights relative to the ends of the encompassing part (6.1) or the two encompassing parts (6.1) and or on the attack side A and / or on the protective side S, at least two different segments alternate, a frame (6), between which and the ballistic block (2) a gap (8) remains, and - Sealing lips (7), method of manufacture and use.

Description

Field of the invention

The present invention relates to a framed, transparent, bullet-resistant glazing with reinforced edge area.

Moreover, the present invention relates to a method for producing the framed, transparent, bullet-resistant glazing with reinforced edge area.

Last but not least, the present invention relates to the use of the framed, transparent, bullet-resistant glazing with reinforced edge area.

State of the art

The prior art cited in the present application is incorporated by reference.

Monolithic bulletproof glazings or bulletproof glass based on laminated safety glass are known. By way of example, the European patent application EP 2 434 249 A1 , the European patent EP 1 004 433 B1 , the German utility model DE 20 2011 001 371 U1 or the German patent applications DE 44 15 879 A1 . DE 41 42 416 A1 . DE 100 48 566 A1 . DE 197 45 248 A1 , the American patent US 8,789,324 B2 and the American patent application US 2003/0190439 directed. These bullet-resistant glazings do not provide complete safety against splinters, especially when bombarding their critical areas.

As far as the protection against splinters is concerned, this comes from the European patent application EP 0 528 354 A1 known, bullet-resistant insulating glass element with a certain improvement. In this insulating glass element behind the monolithic ballistic block, ie on the side facing away from the attack side, a single disc arranged as insulation, which, if the bombardment is not too violent, can absorb outgoing splitter.

After the test in accordance with DIN EN 1522 and DIN EN 1523 for the determination of the firing class, one part of the standard is analogous so that the system test (system = glass unit + frame) is carried out by bombardment at the supposedly most critical point shall be. For some time, the fire departments have reinterpreted the interpretation of this passage and fire at an angle of 90 ° with the ammunition corresponding to the test firing class on the edge area. For this purpose, three shots along the edges with a distance of 120 mm are given along one edge. The distance to the edges is not exactly defined, but it is in the range of 15 mm to 40 mm. Particularly critical is the impact on the corner of the system. For the inner part of the system, the bombardment angle of 90 ° is normal and not critical.

As a sign of the failure of the system is a splitter outlet on the protective side.

Accordingly, it was the object of the present invention to provide a framed, transparent, shatterproof, bullet-resistant glazing, which no longer has the disadvantages of the prior art. In particular, the novel glazing should be able to be produced in a simple manner and, if at all, with only very low reject rates.

These and other objects are achieved according to the proposal of the invention by the framed transparent, bullet-resistant glazing with reinforced edge region, the process for their preparation and their use with the features of the independent claims. Advantageous embodiments of the invention are given by the features of the subclaims.

Detailed description of the invention

The present invention relates to a framed, transparent, bullet-resistant glazing with reinforced edge area.

"Bombardment-resistant" means that the glazing complies with the tests according to DIN EN 1522 and DIN EN 1523 and does not show splinters into the protected area when bombarded in the edge area. Furthermore, the classification and requirements for ballistic block testing are regulated by the European standard EN 1522.

Transparent in the sense of the invention is understood to be a glazing which has a transmission in the visible spectral range> 5%. However, for wafers intended to provide privacy, for example, the transmission may also be much smaller, for example <5%.

The glazing according to the invention comprises at least one, preferably one, monolithic ballistic block which comprises at least two, preferably at least three, glass panes.

The glass panes are preferably constructed of at least one glass selected from the group consisting of flat glass, float glass, quartz glass borosilicate glass, soda lime glass and ceramic glass.

The glass sheets are permanently bonded together by transparent, adhesion-promoting layers.

The adhesion-promoting layers may be adhesive layers or films. Preferably, plastic films are used. Preferably, the films are made of a plastic selected from the group consisting of polyvinyl butyral (PVB), ethylene vinyl acetate (EVA), polyurethane (PU), polypropylene (PP), polyacrylate, polyethylene (PE), polycarbonate (PC), polymethyl methacrylate (PMMA) ), Polyvinyl chloride (PVC), polyacetate resin, casting resins, polyacrylates, fluorinated ethylene-propylene copolymers, polyvinyl fluoride and / or ethylene-tetrafluoroethylene copolymers. In particular, polyvinyl butyral (PVB) or polyurethane (PU) are used.

The monolithic ballistic block may comprise at least one transparent plastic pane, which is permanently adhesively bonded by means of the abovementioned adhesion-promoting layers to at least one glass pane and / or at least one further transparent plastic pane. Preferably, plastics are used which are able to cushion and dissipate the energy generated by the bombardment. In particular, polycarbonate discs are used.

For the invention, it is essential that the ballistic block has at least one reinforcing profile as edge reinforcement.

• U-Profil den Scheibenrand und beide angrenzenden Randbereiche,
• L-Profil nur den Scheibenrand und einen angrenzenden Randbereich auf der Angriffsseite oder der Schutzseite,
• mindestens zwei L-Profile nur den Scheibenrand und jeweils einen angrenzenden Randbereich auf der Angriffsseite und auf der Schutzseite,
• Flachprofil nur einen Randbereich auf der Angriffsseite oder der Schutzseite oder
• mindestens zwei Flachprofile zwei einander gegenüberliegende Randbereiche auf der Angriffsseite und auf der Schutzseite oder
• L-Profil auf der Angriffsseite oder der Schutzseite und Flachprofil auf der Schutzseite oder der Angriffsseite
  den ballistischen Block umläuft, wobei
• die vollständig umlaufenden Verstärkungsprofile oder die Segmente jeweils aus dem gleichen Material oder voneinander verschiedenen Materialien aufgebaut sind und/oder jeweils die gleiche Höhe oder unterschiedliche Höhen bezüglich der Enden des zugeordneten umgreifenden Teils oder der beiden umgreifenden Teile aufweisen und/oder
• sich auf der Angriffsseite und/oder auf der Schutzseite mindestens zwei unterschiedliche Segmente, ausgewählt aus der Gruppe, bestehend aus U-Profil-Segmenten, Flachprofil-Segmenten und L-Profil-Segmenten, abwechseln.

The solid or hollow reinforcing profile completely revolves or in at least two segments

• U-profile the edge of the window and both adjacent edge areas,
• L-profile only the edge of the pane and an adjacent edge area on the attack side or the protective side,
• at least two L-profiles only the edge of the pane and in each case an adjacent edge area on the attack side and on the protective side,
• Flat profile only one edge area on the attack side or the guard side or
• at least two flat profiles two opposing edge regions on the attack side and on the protective side or
• L-profile on the attack side or the protection side and flat profile on the protection side or the attack side
  the ballistic block revolves, where
• the completely encircling reinforcing profiles or the segments are each constructed of the same material or materials different from each other and / or each have the same height or different heights with respect to the ends of the associated encompassing part or the two encompassing parts and / or
• on the attack side and / or on the protective side at least two different segments selected from the group consisting of U-profile segments, flat profile segments and L-profile segments alternate.

Preferably, the reinforcing profile is a completely circumferential U-profile. Preferably, the two vertical legs of the U-profile have the same length. In particular, they end up at the height of the encompassing parts of the frame.

Preferably, the reinforcing profile is solid. If a weight saving can be achieved, hollow sections are also used.

The width, the length and the thickness of the reinforcing profiles depend on the dimensions of the ballistic block and its distance from the frame, so that the person skilled in the art can select for the respective circumstances. Preferably, the thickness is 0.5 to 4 mm.

Preferably, the reinforcing profile is constructed of at least one material selected from the group consisting of metals, ceramics unreinforced and unreinforced, preferably high impact and temperature resistant plastics and their blends and hard woods, such as used for composite armor, in particular armor steel, magnesium alloys, aluminum alloys, titanium alloys, composite ceramics based on ceramics, ABS, polyurethane, polycarbonate, polyamide, polyvinyl chloride, polyester, polymethyl methacrylate, polyphenylene ether , Polyamide-polycarbonate blends, polystyrene-polyphenylene ether blends, polyesteramide, polyimide, polyamideimide, polyethersulfide, polyethersulfone, polyketone, polyetherketone, abachi, afzelia, acacia, bamboo, bangkirai, cumaru, Douglas fir, ebony, eucalyptus, spruce, garapa, ip Lapacho, iroko, jatoba, kambala, pine, larch, mahogany, massaranduba, walnut, olive, rosewood, robinia, siberian larch, tatajuba, teak and elm, as well as composites of at least two of these materials. In particular reinforcing profiles based on armored steel are used.

In particular, the reinforcing profiles made of or based on plastic may contain reinforcing fibers. Examples of suitable reinforcing fibers are:

Seed fibers:

such as cotton (CO), kapok (KP), poplar fluff, acon, such as bamboo fiber, nettle, hemp fiber (HA), jute (JU), kenaf, linen (LI), hops, ramie (RA), hemp

Hard fibers:

like pineapple, Caroä, Curauä, Henequen, New Zealander flax, sisal (SI), coconut (CC)

Wool and fine pet hair:

like, wool of sheep (WO), alpaca, llama, vicuña, guanaco, angora (WA), kanin, camel hair (WK), cashmere (WS), mohair (WM)

rough Animal hair:

like cattle hair, horsehair, goat hair

Silk:

such as mulberry silk (SE), tussah silk (ST), seashell silk

Mineral fibers:

such as erionite, attapulgite, sepiolite, wollastonite
and / or chemical fibers, such as fibers of natural polymers:
such as cellulosic fibers such as Viscose (CV), Modal (CMD), Lyocell (CLY), Cupro (CUP), Acetate (CA), Triacetate (CTA),

Rubber Fibers:

such as rubber

Plant protein fibers:

such as soy protein fiber, zein

Animal protein fibers:

such as casein wool

Fibers based on starch or glucose:

such as polylactide fibers (PLA), alginate fibers (ALG), chitosan fibers,

Polykondensationsfasern:

such as polyester fibers (PES), polyamide fibers (PA), polyimide fibers (PI), polyamideimide fibers (PAI), polyphenylene sulphide fibers (PPS), polyester fibers (PE), nylon fibers,

Polymerisationsfasern:

such as polyacrylonitrile (AN) fibers, polyethylene fibers, polypropylene fibers, PMMA fibers, PVC fibers,

Polyadditionsfasern:

like polyurethane (PU)

inorganic fibers:

Glass fibers (GF), basalt fibers, carbon fibers (CF), graphene fibers, carbon nanotubes, carbonanohorns, metal fibers (MTF), ceramic fibers, boron fibers, ceramic fibers, silica fibers, metallic reinforcing fibers such as steel fibers,

other fibers:

Aramid fibers, Kevlar fibers, lignin fibers, cellulose fibers, fiber composites, textiles, textile fibers, fabric fibers, pyrolysis fibers, nanocellulose.

Preferably, the reinforcing profiles are made of or based on plastic and / or hardwoods using conventional and known flame retardants such as organic and / or inorganic phosphorus compounds, aluminum hydroxide, silicates, intumescent compounds and / or organic bromine compounds optionally in combination with synergists such as antimony trioxide.

The reinforcing profiles preferably have an adhesive layer which permanently adheres permanently to glass and optionally to plastic.

The adhesive layer comprises at least one adhesive. Examples of suitable adhesives are biopolymers, polysaccharides, chemically curing adhesives, polymerization adhesives, cyanoacrylate adhesives, methylmethacrylic adhesives, anaerobic adhesives, unsaturated polyester adhesives (UP resins), radiation curing adhesives, polycondensation adhesives, phenol-formaldehyde resin adhesives, silicone-silane crosslinked Polymer adhesives Polymide adhesives, polysulfide adhesives, polyaddition adhesives, epoxy resin adhesives, polyurethane adhesives, silicone adhesives, silicone-polyisocyanate adhesives, physical bonding adhesives, solvent-borne adhesives, contact adhesives, dispersion adhesives, plastisols, non-solidifying adhesives, pressure-sensitive adhesives, cement, cement-based gypsum-based dot bonds, water glass, lignin, physical bonding adhesives, urea-formaldehyde adhesives (UF), melamine-urea-formaldehyde adhesives (MUF), polymeric isocyanate adhesives (PMDI), polyvinyl acetate adhesives (UF) PVAC), kaurite and / or casein.

Instead of the adhesives, two-sided adhesive tapes can also be used. Examples of suitable two-sided adhesive tapes are 3M VHB ™ Structural Glazing Tape G23F and B23F.

The adhesives and / or the two-sided adhesive tapes may be equipped with the above-described flame retardants.

The glazing according to the invention comprises a ballistic block encircling, bulletproof frame with a horizontal part and two opposite, the edge regions of the ballistic block encompassing, vertically or substantially vertically arranged parts of the same height and / or different height, preferably of the same height on , "Essentially" means that the part or parts in question to an extent of the exact vertical may differ or that the function of the bulletproof frame is maintained. The bulletproof frame is dimensioned to leave a gap between its vertical parts and its horizontal part, on the one hand, and the edges and the edge of the ballistic block, on the other hand.

The space can be easily adapted by a person skilled in the dimensions of the ballistic block. Preferably, its inside diameter is 1 mm to 5 mm.

The space between the opposing edge regions of the ballistic block and the opposing, encompassing, vertically or substantially vertically arranged parts is sealed by at least one, in particular a sealing lip to the outside. Preferably, a sealing lip or one of the sealing lips is in surface contact on the reinforcing profile and presses this against the ballistic block. Preferably, the sealing lips are constructed of an elastic, in particular rubber-elastic, material. Preferably, they are flameproofed with the flame retardants listed above.

The above-described configuration with the sealed gap causes that upon impact the ballistic block can dissipate the incident energy partly by movements, in particular oscillations, which is a further particular advantage of the glazing according to the invention.

The bulletproof frame is preferably constructed of materials that are themselves bulletproof. Preferably, the materials described above are used for the reinforcing profiles. The metals used are preferably steel and / or aluminum. For weight reasons, the bulletproof frame made of metal are preferably hollow.

The glazing according to the invention may also be part of an insulating glazing. For this purpose, at least one additional glass pane is arranged on at least one side parallel to the ballistic block at a certain distance. The distance is determined by at least one spacer, which rotates at least one edge region of the ballistic block. This results in at least one thermally insulating disc space. Thus, the additional glass or the can be arranged additional glass panes on the attack side and / or the protective side of the glazing according to the invention.

Preferably, the spacer is constructed of at least one bullet-resistant, flame-retardant or non-combustible material. Examples of suitable materials of this type are metals, in particular non-corrosive metals such as stainless steel or anodized aluminum, or flame-retardant, high-temperature resistant plastics which char in case of fire and / or form a solid carbon foam. The spacer may be constructed of solid material or of hollow bodies. Preferably, armor steel is used as a hollow body. Preferably, the spacer (s) are or are adhesively bonded to the at least one additional glass sheet and the ballistic block with the above-described adhesives and / or two-sided adhesive tapes.

The glazing according to the invention can have different outlines and shapes, which depend on their intended use. Thus, the glazing according to the invention may be quadrangular, in particular square, triangular, pentagonal, hexagonal, trapezoidal and diamond-shaped, optionally with concave or convex curved edges and / or rounded corners, as well as round, oval or elliptical. In addition, it may be planar or bent in at least one direction of the space.

The glazing according to the invention is preferred

1. (a) the construction of a laminate composite by accurately fitting alternating glass sheets and intervening, transparent, adhesion-promoting films and introducing them in a sack process into an autoclave oven and firmly bonding the glass sheets and the films together to form a laminated safety glass which forms the ballistic block;
2. (B) attaching at least one reinforcing profile so that it is complete or in at least two segments as
   • U-profile the edge of the window and both adjacent edge areas,
   • L-profile only the edge of the pane and an adjacent edge area on the attack side or the protective side,
   • at least two L-profiles only the edge of the pane and in each case an adjacent edge area on the attack side and on the protective side,
   • Flat profile only one edge area on the attack side or the guard side or
   • at least two flat profiles two opposing edge regions on the attack side and on the protective side or
   • L-profile on the attack side or the protection side and flat profile on the protection side or the attack side
     the ballistic block revolves, where
   • the completely encircling reinforcing profiles or the segments are each constructed of the same material or materials different from each other and / or each have the same height or different heights with respect to the ends of the associated encompassing part or the two encompassing parts and / or
   • on the attack side and / or on the protective side at least two different segments selected from the group consisting of U-profile segments, flat profile segments and L-profile segments, alternate, and
3. (c) inserting into a bulletproof frame and sealing the free space between the ballistic block and the encompassing parts of the frame, each with a circumferential sealing lip.

For the construction of the laminate composite in process step (a), at least one transparent plastic pane, in particular at least one polycarbonate pane, can be used, so that the resulting ballistic block contains at least one plastic pane.

It is inserted into the bullet-proof frame by assembling the frame of at least two parts around the ballistic block and possibly also around the insulating glazing (s).

The above-described glazing according to the invention can be applied in many ways. Thus, it can be used as a movable or fixed, functional and / or decorative individual piece, such as protective shields, and as a built-in part in furniture, appliances, buildings and means of transport such as motor vehicles, trucks, armored Vehicles, tanks, ships or aircraft are used. In particular, it is used where there is an increased risk of bombardment. For example, it is used as an architectural component in and / or on buildings, such as museums, banks, airports, terminals or railway stations, where large crowds occur and / or valuables, expensive goods, works of art or dangerous goods are implemented or stored. In the main, it serves as building glazing.

Brief description of the figures

Figur 1

einen vertikalen Längsschnitt durch einen Ausschnitt aus einer gerahmten, transparenten, beschusshemmenden Verglasung gemäß dem Stand der Technik;

Figur 2

eine Draufsicht auf die geschützte Seite S der Verglasung gemäß der Figur 1, wobei der Teil 6.1 des Rahmens 6 oberhalb der gedachten Linie D-D entfernt ist;

Figur 3

einen vertikalen Längsschnitt durch einen Ausschnitt aus einer gerahmten, transparenten, beschusshemmenden Verglasung mit Randverstärkung;

Figur 4

eine Draufsicht auf die geschützte Seite S der Verglasung gemäß der Figur 3 mit umlaufender Randverstärkung, wobei der Teil des Rahmens 6.1 oberhalb der gedachten Linie D-D entfernt ist;

Figur 5

eine Draufsicht auf die geschützte Seite S der Verglasung gemäß der Figur 3 mit segmentierter Randverstärkung, wobei der Teil des Rahmens 6.1 oberhalb der gedachten Linie D-D entfernt ist;

Figur 6

einen vertikalen Längsschnitt durch einen Ausschnitt aus einer Ausführungsform der gerahmten, transparenten, beschusshemmenden Verglasung mit Randverstärkung in vereinfachter Darstellung;

Figur 7

einen vertikalen Längsschnitt durch einen Ausschnitt aus einer weiteren Ausführungsform der gerahmten, transparenten, beschusshemmenden Verglasung mit Randverstärkung in vereinfachter Darstellung; und

Figur 8

einen vertikalen Längsschnitt durch einen Ausschnitt aus einer weiteren Ausführungsform der gerahmten, transparenten, beschusshemmenden Verglasung mit Randverstärkung in vereinfachter Darstellung. Verklärt

The invention will now be explained in more detail with reference to embodiments and a comparative example according to the prior art. In simplified, not to scale:

FIG. 1

a vertical longitudinal section through a portion of a framed, transparent, bullet-resistant glazing according to the prior art;

FIG. 2

a plan view of the protected side S of the glazing according to the FIG. 1 with the part 6.1 of the frame 6 removed above the imaginary line DD;

FIG. 3

a vertical longitudinal section through a section of a framed, transparent, bulletproof glazing with edge reinforcement;

FIG. 4

a plan view of the protected side S of the glazing according to the FIG. 3 with circumferential edge reinforcement, the part of the frame 6.1 being removed above the imaginary line DD;

FIG. 5

a plan view of the protected side S of the glazing according to the FIG. 3 with segmented edge enhancement with the portion of the frame 6.1 removed above the imaginary line DD;

FIG. 6

a vertical longitudinal section through a section of an embodiment of the framed, transparent, bulletproof glazing with edge reinforcement in a simplified representation;

FIG. 7

a vertical longitudinal section through a section of another embodiment of the framed, transparent, bulletproof glazing with edge reinforcement in a simplified representation; and

FIG. 8

a vertical longitudinal section through a section of another embodiment of the framed, transparent, bulletproof glazing with edge reinforcement in a simplified representation. transfigured

1

gerahmte, transparente, beschusshemmende Verglasung

2

ballistischer Block

2.1

Glasscheibe des ballistischen Blocks

2.2

transparente Kunststoffscheibe

2.3

transparente, haftvermittelnde Schicht

2.4

Glasscheibe der Isolierglaseinheit 2.4, 3, 2, 5

3

Scheibenzwischenraum

4

auftreffendes Geschoss

5

Abstandshalter

6

beschussfester Rahmen

6.1

umgreifender Teil des Rahmens 6 oberhalb der gedachten Linie D-D

6.2

horizontaler Teil des Rahmens 6

7

Dichtungslippe

7.1

Abschnitt der Dichtungslippe 7

8

Zwischenraum

9

Scheibenrand

9.1

an den Scheibenrand 9 angrenzender Randbereich

10

Verstärkungsprofil als Randverstärkung

10.1, 10.2 10.3, 10.4

Segmente des Verstärkungsprofils 10

A

Angriffsseite

S

Schutzseite

D-D

gedachte Linie

In the FIGS. 1 to 5 the reference signs have the following meaning:

1

framed, transparent, bullet-proof glazing

2

ballistic block

2.1

Glass pane of the ballistic block

2.2

transparent plastic disc

2.3

transparent, adhesion-promoting layer

2.4

Glass pane of the insulating glass unit 2.4, 3, 2, 5

3

Disk space

4

striking bullet

5

spacer

6

Shatterproof frame

6.1

encompassing part of the frame 6 above the imaginary line DD

6.2

horizontal part of the frame 6

7

sealing lip

7.1

Section of the sealing lip 7

8th

gap

9

disc edge

9.1

at the edge of the disc 9 adjacent edge region

10

Reinforcement profile as edge reinforcement

10.1, 10.2 10.3, 10.4

Segments of the reinforcing profile 10th

A

wing

S

protection page

DD

imaginary line

Detailed description of the figures Figures 1 and 2

The FIG. 1 shows a vertical longitudinal section through a section of an embodiment of a framed, transparent, bullet-resistant glazing 1 with an insulating glass unit 2.4, 3, 2, 5 and a ballistic block 2 on the attack side A according to the prior art.

The insulating glass unit 2.4, 3, 2, 5 and the ballistic block 2 of the known glazing 1 had the dimensions 0.5 mx 0.5 m, as they are common for bombardment, and was in a suitable bullet-proof steel frame 6, 6.1, 6.2 fixed, wherein the gap 8 a clear width of 4 mm between the ballistic block 2 and the insulating glass unit 2.4, 3, 2, 5 on the one hand and the frame 6 on the other hand by two circumferential sealing lips 7 was sealed from a flame-retardant, elastomeric elastomer to the outside. At the same time, the sealing lips 7 fixed the arrangement of ballistic block 2 and insulating glass unit 2.4, 3, 2, 5 in the steel frame. 6

The glass sheet 2.4 of the insulating glass unit 2.4, 3, 2, 5 was a 4 mm thick tempered float glass sheet, and the peripheral spacer 5 was a square pipe made of anodized aluminum having a square cross section with a side length of 10 mm and a wall thickness of 1 mm. The spacer 5 was adhesively bonded to the surface of the ballistic block 2 and the inside of the glass sheet 2.4 with a glass-metal adhesive, so that a space between the panes 3 of a clear width of 10 mm resulted.

The ballistic block 2 was constructed of two 5 mm thick float glass panes 2.1 and a 6 mm thick polycarbonate pane 2.2 arranged therebetween. The assembly was held firmly together by two 1.3 mm thick adhesive films 2.3 made of polyurethane (PU).

The FIG. 2 shows a plan view of the protected side S of the glazing 1 according to the FIG. 1 , wherein the part 6.1 of the frame 6 is removed above the imaginary line DD. The FIG. 2 also shows surface of the glass sheet 2.1 of the ballistic block 2 with the peripheral edge 9 and the circumferential gap 8 between the edge 9 and the horizontal part 6.2 of the frame 6 and a section 7.1 of the sealing lip. 7

If a bullet 4 on the area of the edge of the attack side A near the frame 6, 6.1 of the known, framed, transparent, bullet-resistant glazing 1 according to the FIGS. 1 and 2 the disk 2.4 splintered completely and on the protective side S of the ballistic block 2 it came to splitter outlet, so that the known glazing 1 did not meet the security requirements placed on them.

FIGS. 3, 4 and 5

The FIG. 3 shows a vertical longitudinal section through a section of a framed, transparent, bullet-resistant glazing 1 with edge reinforcement 10 according to the invention.

The ballistic block 2 of the glazing 1 according to the invention had the dimensions 0.5 mx 0.5 m, as they are customary for bombardment patterns, and was fixed in a suitable bullet-resistant steel frame 6, 6.1, 6.2, wherein the gap 8 a clearance of Was sealed 4 mm between the ballistic block 2 and the parts 6.1 by two circumferential sealing lips 7 made of a flame-retardant, rubber-elastic elastomer to the outside. At the same time, the sealing lips 7 fixed the ballistic block 2 in the steel frame 6, 6.1, 6.2.

For weight reasons, the steel frame 6 was hollow with a wall thickness of 2 mm. The light width of the cavity was 5 mm to the imaginary line D-D and narrowed from there in the vertical, comprehensive parts 6.1 to 2 mm. The height of the parts 6.1 from the imaginary line D-D was 40 mm The clear width between its two vertical, comprehensive parts 6.1 was 32.9 mm. The horizontal part 6.2 had a width of 50.9 mm.

On the attack side A of the ballistic block 2, a 5 mm thick prestressed float glass pane 2.1 was arranged and adhesively bonded to a 6 mm thick polycarbonate 2.2 using a 1.3 mm thick adhesive film 2.3. On the other side of the polycarbonate sheet 2.2 to the protective side S out two 5 mm thick tempered float glass panes 2.1 were attached with two 1.3 mm thick adhesive films 2.3. The ballistic block was thus a total of 24.9 mm thick.

On the edge 9 and on the two adjacent to the edge 9 edge regions 9.1 103.28 mm wide, 2 mm thick U-shaped profile made of armored steel with silicone adhesive ballistic block 2 circumferentially glued symmetrically, so that its edges at the height of the ends of the two vertical enclosing parts were 6.1.

The FIG. 4 shows a plan view of the protected side S of the glazing 1 according to the invention according to the FIG. 3 , wherein the part 6.1 of the frame 6 is removed above the imaginary line DD. The FIG. 4 also shows the surface of the glass sheet 2.1 of the ballistic block 2 with the peripheral edge 9, the peripheral edge areas 9.1, the U-profile 10 and the circumferential gap 8 between the edge 9 and the horizontal part 6.2 of the frame. 6

The FIG. 5 shows a plan view of the arrangement according to the FIG. 4 , except that the U-profile 10 was glued over the corners in four, each 600 mm long segments 10.1, 10.2, 10.3 and 10.4.

If projectiles 4 several times on the area of the edge of the attack side A near the frame 6, 6.1 of the framed, transparent, bullet-resistant glazing 1 with edge reinforcement 10 according to the Figures 3 and 4 came on the protective side S of the ballistic block 2 to no splinter outlet, so that the glazing 1 of the invention fully met the security requirements placed on them.

FIGS. 6, 7 and 8

The FIGS. 6 . 7 and 8th show vertical longitudinal sections through sections of three other embodiments of the framed, transparent, bullet-resistant glazing 1 with edge reinforcement 10 in a simplified representation.

• bei der erfindungsgemäßen Verglasung 1 gemäß der Figur 6 das 2 mm dicke L-Profil 10 nur auf den Rand 9 und den Randbereich 9.1 auf der Schutzseite S aufgeklebt war,
• bei der erfindungsgemäßen Verglasung 1 gemäß der Figur 7 das 2 mm dicke Flachprofil 10 nur auf den Randbereich 9.1 auf der Schutzseite S aufgeklebt war und
• bei der erfindungsgemäßen Verglasung 1 gemäß der Figur 8 das zwei 2 mm dicke Flachprofile auf den Randbereich 9.1 auf der Schutzseite S und den Randbereich 9.1 auf der Angriffsseite A aufgeklebt waren.

In their construction and the materials used, they corresponded to the glazing 1 according to the invention in accordance with FIGS Figures 3 and 4 , only that

• in the glazing 1 according to the invention according to the FIG. 6 the 2 mm thick L-profile 10 was glued only on the edge 9 and the edge region 9.1 on the protective side S,
• in the glazing 1 according to the invention according to the FIG. 7 the 2 mm thick flat profile 10 was glued only on the edge region 9.1 on the protective side S and
• in the glazing 1 according to the invention according to the FIG. 8 the two 2 mm thick flat profiles were glued to the edge region 9.1 on the protective side S and the edge region 9.1 on the attack side A.

If projectiles 4 several times on the area of the edge of the attack side A near the frame 6, 6.1 of the framed, transparent, bullet-resistant glazings 1 with edge reinforcement 10 according to the FIGS. 6 . 7 and 8th came on the protective sides S of the ballistic blocks 2 to no splitter outlet, so that the glazing 1 of the invention fully met the security requirements placed on them.

Claims (15)

Framed, transparent, bullet-resistant glazing (1) with reinforced edge area (9.1), comprising - At least one ballistic block (2), comprising at least two glass sheets (2.1), which are permanently bonded together by a transparent, adhesion-promoting layer (2.3), - At least one solid or hollow reinforcing profile (10) as edge reinforcement, the complete or in at least two segments (10.1, 10.2) than - U-profile (10) the disc edge (9) and both adjacent edge regions (9.1), - L-profile (10) only the disc edge (9) and an adjacent edge region (9.1) on the attack side A or the protective side S, - At least two L-profiles (10) only the disc edge (9) and in each case an adjacent edge region (9.1) on the attack side A and on the protective side S, - Flat profile (10) only one edge region (9.1) on the attack side A or the protective side S or - At least two flat profiles (10) has two opposite edge regions (9.1) on the attack side A and on the protective side S or - L-profile (10) on the attack side A or the protective side S and flat profile (10) on the protective side S or the attack side A
the ballistic block (2) rotates, wherein - The completely encircling reinforcing profiles (10) or the segments (10.1, 10.2) are each constructed of the same material or materials different from each other and / or each the same height or different heights with respect to the ends of the associated encompassing part (6.1) or the two have encompassing parts (6.1) and / or on the attack side A and / or on the protective side S, at least two different segments selected from the group consisting of U-profile segments (10), flat profile segments (10) and L-profile segments (10), alternate, - A the ballistic block (2) encircling, demolition-resistant frame (6) with a horizontal part (6.2) and two opposite, the edge regions (9.1) embracing, vertically or substantially vertically arranged parts (6.1) of the same height and / or different height, wherein between the frame (6) and the edge (9) and the edge regions (9.1), a gap (8) is arranged, and - In each case at least one sealing lip (7), which in each case in the intermediate space (8) between the opposite edge regions (9.1) and the opposing, encompassing, vertically or substantially vertically arranged parts (6.1) is arranged and the intermediate space (8) seals to the outside. Glazing (1) according to claim 1, characterized in that the reinforcing profile (10) covers the edge region (9.1) or the edge regions (9.1) up to the height of the ends of the encompassing part (6.1) or the encompassing parts (6.1). Glazing (1) according to claim 1 or 2, characterized in that at least one of the sealing lips (7) rests in planar contact on the reinforcing profile (10) and presses it against the ballistic block (2). Glazing (1) according to one of claims 1 to 3, characterized in that the reinforcing profile (10) constructed of at least one material selected from the group consisting of metals, ceramics unreinforced and unreinforced, high impact and temperature resistant plastics and their blends and Hardwoods, as used for composite armor, as well as their composites of at least two of these materials is selected. Glazing (1) according to one of claims 1 to 4, characterized in that the bulletproof frame is made of at least one material selected from the group consisting of consisting of metals, ceramics of unreinforced and unreinforced, high impact and temperature resistant plastics and their blends and hardwoods, such as those used for composite armor, and their composites of at least two of these materials. Glazing (1) according to one of Claims 1 to 5, characterized in that the glass panes (2.1) are made up of at least one glass selected from the group consisting of flat glass, float glass, quartz glass, borosilicate glass, soda lime glass and ceramic glass. Glazing (1) according to one of Claims 1 to 6, characterized in that the adhesion-promoting layers (2.3) of the ballistic block (2) are films of a plastic selected from the group consisting of polyvinyl butyral (PVB), ethylene vinyl acetate (EVA), Polyurethane (PU), polypropylene (PP), polyacrylate, polyethylene (PE), polycarbonate (PC), polymethyl methacrylate (PMMA), polyvinyl chloride (PVC), polyacetate resin, casting resins, polyacrylates, fluorinated ethylene-propylene copolymers, polyvinyl fluoride and / or ethylene Tetrafluoroethylene copolymers. Glazing (1) according to claim 7, characterized in that the plastic is polyvinyl butyral (PVB) or polyurethane (PU). Glazing (1) according to one of claims 1 to 8, characterized in that the ballistic block (2) comprises at least one transparent plastic disc (2.2), which by means of the adhesion-promoting layers (2.3) with at least one glass sheet (2.1) and / or with at least one further transparent plastic disc (2.2) permanently adherent connected. Glazing (1) according to claim 9, characterized in that the at least one transparent plastic pane (2.2) is a polycarbonate pane. Glazing (1) according to one of claims 1 to 10, characterized in that it is part of a glazing in which at least one glass sheet (2.4) is arranged on at least one side parallel to the ballistic block (2) at a distance which is separated by a at least one edge region (9.1) encircling Spacer (5) is fixed so that there is at least one thermally insulating disc space (3). Glazing (1) according to one of claims 1 to 11, characterized in that the sealing lips (7), the bulletproof frame (6), the reinforcing profiles (10) and / or the spacers (5) are flameproof. A method for producing a framed, transparent, bullet-resistant glazing (1) with reinforced edge area (9.1) according to one of claims 1 to 12 by (A) the construction of a laminate composite by accurately fitting, alternately superimposing glass sheets (2.1) and intermediate, transparent, adhesion-promoting films (2.3) and introduction in a sack process in an autoclave oven and adherent bonding of the glass sheets (2.1) and the films (2.3) to a Laminated safety glass forming the ballistic block (2), (B) attaching at least one solid or hollow reinforcing profile (10) so that it is completely or in at least two segments (10.1, 10.2) as - U-profile (10) the disc edge (9) and both adjacent edge regions (9.1), - L-profile (10) only the disc edge (9) and an adjacent edge region (9.1) on the attack side A or the protective side S, - At least two L-profiles (10) only the disc edge (9) and in each case an adjacent edge region (9.1) on the attack side A and on the protective side S, - flat profile (10) only one edge region (9.1) on the attack side A or the protective side S, - At least two flat profiles (10) has two opposite edge regions (9.1) on the attack side A and on the protective side S or - L-profile (10) on the attack side A or the protective side S and flat profile (10) on the protective side S or the attack side A
the ballistic block (2) rotates, wherein - The completely encircling reinforcing profiles (10) or the segments (10.1, 10.2) are each constructed of the same material or materials different from each other and / or each the same height or different heights with respect to the ends of the associated encompassing part (6.1) or the two have encompassing parts (6.1) and / or on the attack side A and / or on the protective side S, at least two different segments selected from the group consisting of U-profile segments (10), flat profile segments (10) and L-profile segments (10), alternate, - and (c) inserting into a bullet-proof frame (6) and sealing the free space (8) between the ballistic block (2) and the encompassing parts (6.1) of the frame (6), each with a circumferential sealing lip (7). A method according to claim 13, characterized in that for the construction of the laminate composite in step (a) at least one transparent plastic disc is used. Use of the framed, transparent, bullet-resistant glazing (1) with reinforced edge area (9.1) according to one of claims 1 to 12 or the glazing (1) produced according to the method according to claim 13 or 14 as a movable or fixed, functional and / or decorative single piece and as a built-in part and / or attachment for furniture, appliances, buildings and means of transportation.

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