Laminated and beveled safety glass panel

The disclosure relates to a laminated and beveled safety glass panel. More particularly, the safety glass panel comprises a panel having the appearance of a leaded glass panel that meets safety glass requirements. The glass panel is preferably constructed by taking an outer panel and bonding to it an inner glass panel, preferably annealed, having a glass joiner therebetween. At least one groove is machined into the outer glass panel and/or the inner glass panel simulating separate glass panel sections. Within the groove a bead, preferably formed of lead, is adhesively placed thereby yielding an overall beveled and leaded appearance.

RELATED APPLICATION 
1. Field of Invention 
The present invention relates to a decorative, laminated and beveled glass 
panel, more particularly to a laminated glass panel that has the 
appearance of a leaded glass, but meets safety glass requirements for 
resistance to hurricane force winds. 
2. Background of the Invention 
Traditional leaded glass panels are made by cutting and fitting individual 
pieces of glass to form a pattern. The pieces are held together by using 
H-shaped lead cames which are soldered together where they intersect. The 
hand manufacturing process can be labor intensive and costly. The design 
results in a weak structure and over time the cames become a poor 
environmental seal. Many building codes effectively prohibit the standard 
leaded glass construction due to its propensity to launch large pieces of 
glass into or from a structure when subjected to missle impact or from 
excessive pressure, such as from hurricane force winds. 
During recent hurricanes traditional leaded glass panels were found to be 
too weak to withstand the forces of the hurricane and air borne objects 
carried thereby. At the present time, new building codes are requiring 
hurricane proof glass panes in public places. One such test procedure, in 
Dade County Florida, for example, uses a cannon to shoot a standard 
building stud, i.e. 2.times.4.times.8', at 30 mph at the test panel. 
Laminated glass is required to withstand this test, identified as South 
Florida Building Code (Revised 1994), Section 2315 IMT TESTS for 
windborn debris, Subsection 2315.2 Large missile impact test. 
There are two types of safety glass generally available in the United 
States today, tempered glass and laminated glass. Tempered glass, through 
a process of controlled heating and cooling, has developed thereon a 
surface tension similar to the surface tension which creates a bubble. 
This gives the glass certain strength characteristics which allow the 
glass to "explode" into very small pieces when fractured. It is most 
vulnerable to fracture from a blow to the edge or to severe planar 
twisting. Tempered glass, however will explode when the surface is 
modified by grinding or milling to a degree where the process has 
sufficiently penetrated the surface tension lawyer. 
The other type of safety glass is laminated glass. Here two pieces of any 
type of glass are bonded to an intermediate sheet of plastic, such as poly 
vinyl butyrate (PVB). The advantage of laminated glass is that the pieces 
of glass can break and the laminate layer will hold the resultant pieces 
in place, thus preventing any harm to humans. Further, the laminate layer, 
when of sufficient strength or thickness, may stay in place at the 
affected or broken area. 
Numerous innovations for safety glass panels have been provided in the 
prior art that are described below. Even though these innovations may be 
suitable for the specific individual purposes to which they address, they 
differ from the present invention as will become apparent. 
U.S. Pat. No. 5,205,884, discloses a method of making a stained glass type 
window and the window produced thereby. Pane members are cut into the 
required shapes arranged into the desired pattern and jointed together. 
The stained glass type arrangement is joined to a finishing pane and may 
be incorporated into an insulated or thermo-pane structure. 
U.S. Pat. No. 5,098,760, discloses a simulated leaded glass panel which 
incorporates a glass backing sheet on which are mounted glass pieces 
having thin beveled edges and positioned in a desired pattern. The beveled 
pieces are affixed to the glass by liquid adhesive which may be activated 
by the application of U.V. light. Adhesive-backed lead strips are 
positioned to outline the beveled pieces on the underside of the glass 
sheet to achieve the desired effect of leaded glass. 
U.S. Pat. No. 5,045,370, discloses a window pane employing beveled glass 
plates formed into a plurality of different clusters. Each cluster 
includes a connecting plate extending outwardly which has a standardized 
width that can be joined with a standard planar piece of beveled plate 
glass. Unique corner, link, and crown clusters are employed, each 
including a pair of connecting plates which are spaced apart the same 
distance as other connecting plates in adjoining clusters. 
U.S. Pat. No. 4,904,513, discloses a component for window frames having a 
plurality of flat glass elements bonded to a flat transparent backing 
pane. The flat glass elements have chamfered edges placed side by side in 
order to achieve the appearance of "leaded lights". 
U.S. Pat. No. 4,756,938, discloses a method of producing a laminated or 
resin bonded glazing unit comprising an exothermically setting resin 
material between a pair of spaced apart glazing panels and allowing the 
resin material to set, wherein one of the glazing panels is leaded stained 
or a decorative glazing panel. 
U.S. Pat. No. 4,619,850, discloses a decorative glass window product 
including a sheet of glass, a metal design component in the form of a 
unitary, precast, reticulated came network, where the component is bonded 
on its inner surface to one side of the glass sheet, and a thin layer of 
an elastomeric adhesive bonding the component to the glass sheet. 
U.S. Pat. No. 4,488,919, discloses a simulated beveled and leaded glass 
product which includes flat-bottomed, beveled grooves formed in the front 
surface of a pane of glass or plastic, forming design segments of 
unrelieved thickness surrounded by beveled grooves, and a plurality of 
lead strips bonded to the flat bottom walls of the grooves, thus enclosing 
the design segments and simulating beveled and leaded glass. 
U.S. Pat. No. 4,194,669, discloses decorative leaded panels of transparent 
thermoplastic material, such as windows, made by affixing metallic lead 
strips to the surface of a thermoplastic sheet by solderable securing 
means, and then soldering to complete the joint. 
Numerous innovations for safety glass panels have been provided in the 
prior art as noted above. Even though these innovations may be suitable 
for the specific individual purposes to which they address, they would not 
be suitable, and in fact do not represent commercial products, for the 
purposes of the present invention. In contrast to the prior art, the 
present invention provides an individual pane look by milling grooves into 
a single pane of safety glass having multiple layers of glass to simulate 
leaded glass. A nonstructural bead simulating the came of leaded glass is 
applied to the bottom of the groove to complete the leaded simulation. In 
a second embodiment of the top pane of safety glass the minimum thickness 
at the bottom of the groove satisfies the safety glass requirements. As a 
consequence of the preferred method of manufacture, the present invention 
has cost advantages and satisfies the requirements of safety glass. 
The manner by which these advantages are achieved will become apparent in 
the description which follows, particularly when read in conjunction with 
the accompanying drawings. 
SUMMARY OF THE INVENTION 
The present invention relates to decorative leaded glass panels, more 
particularly, the invention relates to a manufactured glass panel having 
the appearance of beveled and leaded glass and meets safety glass 
requirements. The invention hereof is preferably constructed by taking an 
outer glass panel and bonding it to an inner glass panel having a glass 
joiner therebetween, such as PVB. At least one groove is machined into the 
outer glass and/or the inner glass panel simulating separate glass panels. 
Within the groove, a bead preferably constructed from lead, is adhesively 
placed thereby yielding an overall beveled glass appearance. 
The present invention solves a long felt need for an architecturally 
appealing beveled and leaded glass that is cost effective to manufacture 
and can be installed in areas where building codes require safety glass. 
The present invention produced unexpected results, namely, existing leaded 
glass panels can be replaced with cosmetically pleasing alternatives 
without major reconstruction of existing frameworks. 
Accordingly, it is an object of this invention to satisfy stringent 
building code specifications for glass in doors with a cost effective 
simulated leaded glass. 
Still another object hereof is the provision of a beveled and leaded glass 
appearance for a safety glass base which meets stringent building code 
requirements for hurricane proof door glass.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENT 
The present invention is directed to a laminated and beveled safety glass 
panel, such as for a door or window, as illustrated in the several views, 
where like reference numerals represent the same components or features 
throughout the Figures. 
Referring first to FIG. 1, which is a perspective view of a safety glass 
panel 10 installed in a door 20, where the door 20 comprises a left door 
20A and a right door 20B functioning to provide access to an area of a 
house, for example. The left door 20A comprises a door panel opening 20AA 
having fastening means around an inner circumference functioning to fasten 
a safety glass panel 10 by an outer circumference. The right door 20B is 
similarly constructed having a door panel opening 20BA. 
In FIG. 2, there is illustrated a glass panel 12 comprising an outer glass 
panel 12A laminated at an inner distal side to an inner glass panel joiner 
14. The glass panel 12 functions to provide a decorative appearance of 
leaded glass to satisfy requirements for safety glass. The outer glass 
panel 12A comprises a first vertical groove 18D, a second vertical groove 
18E, and a first horizontal groove 18F. The respective grooves are 
manufactured by a grinding process which functions to divide the outer 
glass panel 12A into a plurality of outer glass panels 12AA, 12AB, 12AC, 
12AD, 12AE 12AF, which are adjacent to one another. The groove provides a 
cosmetic line of demarcation which when combined with a decorative outer 
bead. 16A, as shown in FIG. 3, functions to give the appearance of a 
beveled and leaded glass. 
FIG. 3 features an outer glass panel 12A comprising a machined groove 18 
separating the outer glass panel 12A into the outer glass panel upper left 
12AA and the outer glass panel upper middle 12AB. The outer glass upper 
left 12AA and the outer glass upper middle 12AB function to provide a 
cosmetically pleasing appearance when taken in conjunction with the groove 
18 and the bead 16. The groove 18 comprises a left wall 18A which is 
downwardly angled with respect to the horizontal surface of the outer 
glass upper left 12AA. The groove left wall 18A is formed by a rotating 
router bit 22 such that a router bit left cutting edge 22A forms the 
groove left wall 18A. A groove right wall 18B is formed by a rotating 
router bit 22 such that a router bit right cutting edge 22B forms the 
groove right wall 18B. A groove base 18C is formed by a rotating router 
bit 22 such that the router bit flat cutting edge 22C forms the groove 
base 18C. 
The bead 16 comprises a decorative outer bead 16A functioning to provide a 
decorative appearance simulating a came of a leaded glass panel. The 
decorative outer bead 16A comprises a decorative outer bead strip 16AA 
securely applied to an outer distal side of a decorative outer bead 
adhesive 16AB. The inner distal side of the decorative bead adhesive 16AB 
is securely applied to the groove base 18C. 
The bead further comprises a decorative inner bead 16B applied on an inner 
distal side of an inner glass panel 12B juxtaposed to the decorative outer 
bead adhesive 16AB, which functions to provide a decorative appearance 
simulating a came of a leaded glass pane. The decorative inner bead 16B 
comprises an inner bead strip 16BA securely applied to an outer distal 
side of a decorative inner bead adhesive 16BB. The inner distal side of 
the decorative inner bead adhesive 16BB is securely applied to the inner 
distal side of the inner glass panel 12B. 
The outer glass panel 12A is securely fastened to the inner glass panel 12B 
by the glass joiner 14, such a methacrylic adhesive layer, or 
poly-vinyl-butenal (PVB), manufactured by Monsanto. The glass joiner 14 
may be made from colored materials. Further, the glass joiner 14 may have 
optical properties but not limited to transparent, translucent. opaque and 
optical texturing. 
In FIG. 3A there is illustrated a router bit 22 fixed in a rotating machine 
tool chuck by a shaft 22D. The router bit 22 is rotated by a machine tool, 
whereby to cut the groove 18 in outer glass panel 12A. The cutting edge 
22A functions to cut the groove wall 18A, while the cutting edge 22B 
functions to cut the groove wall 18B. Finally, the flat cutting edge 22C 
functions to cut the groove base, preferably down to the joiner layer. The 
respective cutting edges may be shaped and proportioned to achieve a 
decorative appearance in the groove. For example, as an alternative, the 
router bit may be configured like a wheel with a beveled rim to produce a 
different shaped groove. 
Referring now to FIG. 4, which is a cross-sectional view similar to FIG. 3, 
exhibiting an alternate embodiment of an outer glass panel, said 
embodiment comprising a glass panel 12 having a second outer glass panel 
112A with a machined groove 18. The groove 18 functions to divide the 
second outer glass panel 112A into an outer glass panel upper left 112AA 
and an outer glass panel upper middle 112AB. The groove 18 comprises a 
pair of angled walls 18A, 18B, and a base 18C, where such groove is 
preferably formed by a router bit, as described above. The depth of the 
groove 18 is such that the minimum thickness of the second outer glass 
panel 112A between the groove base 18C and the inner distal side of the 
second outer panel 112A satisfies the requirements of safety glass, such 
as the Dade County, Florida code test, wherein a standard 2.times.4 
building stud is shot from a cannon against the glass panel. In a specific 
embodiment, an annealed glass panel 1/8" thick, joined to a beveled and 
leaded second tempered glass panel 1/8" thick by an intermediate layer of 
PVB, the laminated and beveled glass safety panel withstood the impact of 
the Dade County test. 
The alternative embodiment also includes a bead 16 comprising a decorative 
outer bead 16A which functions to provide a decorative appearance 
simulating a came of a beveled and leaded glass panel. The decorative 
outer bead 16A comprises a decorative outer bead strip 16AA securely 
applied to an outer distal side of a decorative outer bead adhesive 16AB. 
The inner distal side of the decorative outer bead adhesive 16AB is 
securely applied to the groove base 18C. The bead 16 further comprises a 
decorative inner bead 16B applied on an inner distal side of an inner 
glass panel 12B juxtaposed to the decorative outer bead adhesive 16AB 
which functions to provide a decorative appearance simulating a came of a 
leaded glass panel. 
One major advantage of the preferred combination hereof, namely, a laminate 
of annealed glass and tempered glass, is the ability to mill into the 
annealed side and yet have an increased resistance to fracture from a 
concussion, such as a slamming door, due to the strength of the tempered 
glass component. 
While the invention has been illustrated and described as embodied in a 
laminated and beveled safety glass panel, it is not intended to be limited 
to the details shown, since it will be understood that various changes, 
modifications and substitutions may be made by those skilled in the art 
without departing from the spirit and scope of this invention.