Break-in resistant wood panel door

A wooden panel door reinforced against attempted break-in contains layers of fiberglass mat and decorative wooden facing strip bonded to the doorjamb and stiles. The stiles and doorjamb are constructed from wood with grain that runs primarily in a single direction, and reinforcing these stiles and doorjambs against impact can be achieved by bonding to them a fiberglass mat, which contains fibers running in transverse directions. The fiberglass mat is in turn covered by a decorative wooden facing strip layer.

FIELD OF THE INVENTION 
The invention relates generally to wooden doors, and in particular to 
wooden panel doors having wooden stiles and rails framing one or more 
panels. 
BACKGROUND OF THE INVENTION 
The wooden panel door derives its name from the fact that it is constructed 
of separate panels held between vertical stiles and horizontal rails. The 
stiles and rails are generally milled separately and assembled about the 
panels to produce a sturdy but elegant door amenable to a variety of 
finishes including those in which the natural wood is exposed. The use of 
wood provides good thermal insulation and the broad areas of the stiles 
allow flexible placement of the lock set and hinges at the construction 
site with standard wood-working tools. 
Nevertheless, the panel door is not well adapted to applications where 
security is important. Even with a reasonable thickness of lumber and 
despite the availability of numerous lumber types, a panel door is still 
readily breached by strong impact which may break the lock set from the 
lock stile and/or the strike plate from its opposing jamb. Although this 
may be remedied somewhat by the use of large protective escutcheons, these 
are not always effective and, by requiring insertion of additional 
mounting screws into the door stile, escutcheons may in fact further 
weaken the stile itself. Escutcheons invariably make the door less 
attractive. 
Accordingly, for security sensitive applications, it is typical to use 
steel doors. Although these doors may have an embossed surface reminiscent 
of a panel door, they are generally less attractive and more expensive 
alternatives to a wooden panel door. 
SUMMARY OF THE INVENTION 
The present invention recognizes that the weakest point of a wooden panel 
door is in the orientation of the grain of the stiles with respect to the 
forces likely to be imposed on the door in an attempted break-in. 
Specifically, the forces are perpendicular to the grain, tending to 
separate the individual wood fibers from one another rather than to break 
or bend the fibers themselves. Accordingly, the present inventors have 
recognized that a relatively small amount of high tensile reinforcing 
material counteracting the ease with which fibers may be separated can 
substantially increase the strength of a wooden panel door against forces 
incident in an attempted break-in without unduly increasing the cost of 
the door or diminishing its aesthetic qualities. 
In particular, the present invention provides a wood panel door for use 
with a lock set where the door comprises spaced apart longitudinally 
extending butt and lock stiles, joined at their ends by transversely 
extending top and bottom rails to contain at least one panel between the 
stiles and rails. The lock stile is composed of wood having longitudinally 
extending grain, with a fiber mat bonded to at least one of the faces of 
the lock stile near the location of the lock set. The fiber mat is 
oriented to provide transverse tensile restraint on the grain of the lock 
stile. 
Thus, it is one object of the invention to precisely augment the strength 
of the lock stile in its weakest direction and thus to substantially 
increase the resistance of the lock stile to splitting under the forces 
imposed on the lock stile by the lock set under impact. 
The door may also include a decorative wooden stile facing strip, where the 
fiber mat is sandwiched between the lock stile and the wooden stile facing 
strip. 
Thus, it is another object of the invention to substantially increase the 
strength of a wooden panel door without detracting from its aesthetic 
qualities. With the mat sandwiched between the stile and strip, the door 
still appears to be constructed entirely of wood. 
It is a further object of the invention to preserve the natural 
machinability of a wooden panel door with this added reinforcement. The 
wooden stile facing strip provides a purchase for hole saws and augers 
used for installation of a lock set and permits the face of the door to be 
sanded, stained, and finished in a manner indistinguishable from a 
conventional wooden panel door. 
The fiber mat is preferably fiberglass compressed between the wooden stile 
facing strip and the wooden stile, with the strip and stile deformed under 
pressure about the mat and enclosing it, the strip and stile joined at a 
nearly invisible seam, with none of the fiber mat visible. The high 
tensile strength of fiberglass permits the amount of mat material to be 
minimized, preserving the essential wooden quality of the door. 
The fiber mat may be placed on the inner surface of the stile to resist an 
inward buckling of the stile under impact to the lock set from the 
outside. 
Thus, it is another object of the invention to minimize the need for 
reinforcing material by careful placement of the reinforcing material. 
Similar mats may be used to reinforce the doorjamb and stiles at the hinge 
points and the doorjamb near the location of the strike plate. In both 
these cases, a wooden facing strip is thicker than the hinge leaves or 
strike plate, permitting the recessing of the hinge leaves or strike plate 
per conventional practice without the damaging of the fiber mat. 
Thus, it is another object of the invention to improve the resistance to 
break-in of a wooden panel door and a combined jamb assembly by 
selectively increasing the strength of all the points of attachment of the 
door to the jamb assembly. 
The foregoing and other objects and advantages of the invention will appear 
from the following description. In the description, reference is made to 
the accompanying drawings which form a part hereof and in which there is 
shown by way of illustration, a preferred embodiment of the invention. For 
clarity, two simple examples of a control system are provided. Such 
embodiments do not necessarily represent the full scope of the invention 
as claimed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring now to FIG. 1, a wooden six-panel door 10 includes a vertically 
extending lock stile 12 having grain running in a longitudinal direction 
14 and forming a vertical edge of the door 10 adjacent to a doorjamb 16. 
The lock stile 12 supports a lock set 18, containing a bolt (not shown in 
FIG. 1) which engages a strike plate (also not shown in FIG. 1) contained 
within the jamb 16. The vertical edge of the door 10 opposite to lock 
stile 12 is formed by a butt stile 20 connected by one or more hinges (not 
shown in FIG. 1) to an adjacent jamb 16. The butt stile 20 and lock stile 
12 are joined at their upper ends by a top rail 22, which forms the top 
edge of the door 10 and has grain running in a transverse direction 24. 
Similarly, the butt stile 20 and lock stile 12 are joined at their bottom 
ends by a bottom rail 80, which forms the bottom edge of the door and has 
grain running in a transverse direction 24. Center stile 26 and center 
rails 28 divide the face of the door 10 into six rectangular areas holding 
panels 30. 
Referring now to FIG. 2, inward impact force 31 on the door knob 32 causes 
a transverse tensile force 34 generally perpendicular to the longitudinal 
direction 14 of the grain of the lock stile 12. The internal composition 
of wood may be likened to a set of strong tubes which run along the grain 
and weakly adhere to each other. Accordingly, forces perpendicular to the 
grain, which are resisted only by the adherence of the tubes to one 
another, may easily split the wood. Accordingly, even moderate transverse 
forces 34 may cause a shattering of the lock stile 12 brought about by a 
separation of the grain. 
Referring now to FIG. 3, in the present invention the inner face 36 of the 
lock stile 12 in the vicinity of the lock set 18 has bonded to it a 
loosely woven fiber mat 38 having a high tensile strength in the 
transverse direction 24. As shown, the strands of the fiber mat 38 run 
generally diagonal to the transverse direction 24 and longitudinal 
direction 14, but have nevertheless a significant component in the 
transverse direction 24. Alternatively, a fiber mat 38 may be used which 
has strands predominantly in only one direction, the fiber mat 38 being 
laid on the lock stile such that the strands of the mat 38 are in the 
transverse direction 24. 
In the preferred embodiment, the fiber mat 38 is made of fiberglass, and is 
bonded to the lock stile using a bonding agent such as epoxy resin or a 
phenolic type resin (not shown). Commercial suppliers of fiberglass mats 
38 and resin include: Clark-Schwebel, 3M, and Johns-Mannsville. Any 
commercially available resin may be used to apply the fiberglass mat 38 to 
the lock stile 12. Boat-building resins which are specifically designed 
for bonding fiberglass to a wooden substrate, such as those advertised 
under the trademark WEST SYSTEM.RTM. and manufactured by Gougeon Brothers, 
Inc., are preferred. The precise epoxy resin (base and hardener) used will 
be determined by those skilled in the art. 
Bonded in a layer on top of the fiber mat 38 is a decorative wooden-stile 
facing strip 40 which covers the fiber mat 38, sandwiching mat 38 between 
the face 36 of a lock stile 12 and strip 40. The stile facing strip 40 may 
be a relatively thin veneer, having grain oriented in the longitudinal 
direction 14 to match that of the underlying lock stile 12 for the sake of 
appearances. In construction, the lock stile facing strip 40 and lock 
stile 12 are compressed together during curing of the bonding material 
holding the fiber mat 38 to the face 36 of the lock stile 12; this allows 
the wood of the strip 40 and stile 12 to deform about and enclose the 
fiber mat 38, the strip 40 and stile 12 joining at a nearly invisible 
seam, with none of the fiber mat 38 remaining visible. The stile facing 
strip 40 is also constructed of the same material as the lock stile 12 so 
as to accept finishes such as stains in the same way as the lock stile 12 
and the rails 28 and panels 30. In another embodiment, the fiber mat 38 
and facing strip 40 are bonded as layers to a lumber stock, which is then 
milled to produce the stiles or other door components. 
Referring to FIG. 4, an impact force 31 on the door knob 32 produces 
tensile forces 34 which are resisted by the fiber mat 38 which prevents 
the grains from separating in the lock stile 12. Although the fiber mat 38 
and strip 40 are shown positioned on the interior of the door, mat 38 and 
strip 40 may alternatively be placed on only the exterior of the door, or 
it may be desirable to place both fiber mat 38 and strip 40 on both the 
interior and exterior of the door for added strength. 
Referring again to FIG. 3, the lock set 18 may be installed in the panel 
door 10 by cutting the necessary holes with conventional wood-working 
tools such as a hole saw and/or auger. The fiber mat 38 may be easily cut 
by such tools when bonded to the lock stile 12. 
Referring now to FIGS. 3 and 5, the doorjamb, shown generally at 16, has a 
face 52 which abuts the adjacent face 54 of lock stile 12 when door 10 is 
closed. The grain of doorjamb 16 runs in the longitudinal direction 14. 
Fiber mat 38 and wooden edging strip 86 may be bonded in layers to face 
52, such that fiber mat 38 is sandwiched between strip 86 and face 52. 
Strike plate 56 is positioned to receive the latch bolt 76 of lock set 18, 
and the strike plate 56 is recessed into the doorjamb 16 in a manner known 
to the art to a depth equal to the thickness of strike plate 56. In this 
embodiment, the fiber mat 38 has high tensile strength in transverse 
directions to longitudinal direction 14, and the use of the fiber mat 38 
improves the resistance of the doorjamb 16 to splitting under impact 
against the door 10, the force of which impact would transfer to the 
doorjamb 16 through bolt 76 of the lock set 18. 
Referring now to FIG. 6, the butt stile 20 has a face 72 which is adjacent 
to face 78 of doorjamb 16 when door 10 is closed. Butt stile 20 and 
doorjamb 16 each have a grain running in longitudinal direction 14. Fiber 
mat 38 and edging strip 84 may be bonded in layers to face 72, such that 
fiber mat 38 is sandwiched between strip 84 and face 72. Similarly, fiber 
mat 38 and wooden edging strip 88 may be bonded in layers to face 78, such 
that fiber mat 38 is sandwiched between strip 88 and face 78. Hinge 62 has 
two leaves 63, 64 which are attached by screws 60 to faces 72, 78, 
respectively. Leaves 63, 64 are recessed into faces 72, 78 to a depth 
equal to the thickness of leaves 63, 64, in a manner known to the art. 
Strips 84, 88 may be of thickness greater than that of hinge leaf 64, and 
standard woodworking tools may be used to create a recess 74 in strips 84, 
88 shaped to accommodate leaf 64. In this embodiment, the fiber mat 38 has 
high tensile strength in transverse directions to longitudinal direction 
14, and thus use of the fiber mat 38 improves the resistance of doorjamb 
16 and butt stile 20 to splitting under impact against the door 10. The 
face 90 of butt stile 20, which is the face facing the exterior of the 
building when the door 10 is closed, may also be covered by wooden facing 
strip 82, which is bonded in a layer to butt stile 20. Facing strip 82 
overlaps and conceals the side edge 92 of edging strip 84 such that no 
seam between facing strip 82 and edging strip 84 are visible. 
Portions of the butt stile 20, the lock stile 12 and the doorjamb 16 may be 
separately, collectively or in any combination reinforced with layers of 
fiber mat 38. 
Many other modifications and variations of the preferred embodiment which 
will still be within the spirit and scope of the invention will be 
apparent to those with ordinary skill in the art. In order to apprise the 
public of the various embodiments that may fall within the scope of the 
invention, the following claims are made: