Screw

A screw, particularly a wood screw present a combination of a threaded cylindric stem (10) merging, over an inversely frustoconical part (16) with an enlarged diameter cylindric portion (20) which is integral with an underside of a large diameter washer section (23) which, in turn is integral with a shallowly convex head portion (25). The invention is intended for wood screws usually in the range of about 6 mm and provides a reduced chance of injury by providing a smooth merging with the flat surface on which the screw head is located. Also, the screw has an improved torque characteristics making it suitable for use with power screw driving tools.

The present invention relates to a screw. In particular, even though not 
exclusively, the invention relates to a wood screw. 
BACKGROUND OF THE INVENTION 
1. Field of the Invention 
Wood screws belong to the most widely used fasteners in many different 
applications. For instance, it is often required that a wood screw be 
capable of fixedly holding a hardware such as a hinge wing or railway 
clamp. Another requirement often raised is that the specific axial 
pressure active under the screw head of a tightened screw be as low as 
possible while securing a firm hold. Another requisite Is that the screw 
be capable of being applied without the need for countersinking the head 
as this requires an extra machining of at least one of the parts being 
joined. By the same token, it is often required that the screw positioned 
in place be as unobtrusive as possible on the surface to avoid the danger 
of injury, for instance, to animals in zoo structures, to children and to 
the general user. 
2. Description of the Prior Art 
Various types of screws are known which are directed to satisfy one or more 
of the above requirements. For instance, it known from Italian Patent 
475002 Manfroni! to provide a railway clamp fastening wood screw which 
includes a cylindric portion of the shank of the screw above the threaded 
portion of the shank and just below the head. The cylindric portion is 
closely compatible with a bore in the railway clamp through which the 
screw passes into the wooden tie to hold the clamp down. Viewed from the 
standpoint of the present invention, the screw has the drawback that the 
specific pressure under the screw head is relatively high and that an 
axially upwardly projecting portion is required for engagement with a 
torque applying tool, in this case a socket wrench. This type of screw 
therefore would be unsuitable for applications where the specific pressure 
must be low, the fastening force high and the surface head as flush as 
possible to avoid or at least substantially reduce the danger of injury to 
a child or an animal. 
The torque tool engaging projection is known to be replaced with various 
cutouts compatible with tools such as screwdrivers and a variety of these 
exists, from plain straight grooves as in Canadian Patent 27,387 Rogers!, 
to more complex sockets such as shown e.g. in U.S. Pat. No. 5,249,882 
Nagoshi et al.! Canadian Patent 400,454 Purtell!, Canadian Patent 
1,248,374 Rockenfeller et al.! or Published Canadian Patent Application 
2,094,478 Goss!. 
Prior art screws are usually unsuitable for use with power tools, where the 
screw must withstand a relatively high torque while a low specific 
pressure under the head is required when the fastener is firmly in place. 
The screws having convexly shaped heads project above the surface of the 
workpiece often in obtrusive and potentially dangerous way which may cause 
injury. 
SUMMARY OF THE INVENTION 
It is an object of the present invention to provide a screw which would 
withstand a relatively high torque applied by a power tool, which would be 
capable, if required, to engage a predetermined size of a bore in a 
hardware such as a hinge wing, which could be applied, in case of a wood 
screw, without the need for pre-machining the surface of the workpiece to 
accommodate the screw head and which would, by the same token, exert a 
relatively small specific pressure under the head and would be of a 
configuration which projects from the workpiece surface in unobtrusive 
way, eliminating or at least substantially reducing the possibility of 
injury to the user of the particular workpiece. 
In general terms, the invention provides a screw which comprises, in 
combination, a stem portion having a free end and a root end; a helical 
thread projecting from the surface of the stem portion; said root end 
being integral with and corresponding in diameter to a minor base end of a 
frustoconical portion projecting axially from and being coaxial with said 
root end; said frustoconical portion further including a major base end 
spaced from said minor base end, said major base end corresponding in 
diameter to and being integral and co-axial with a first end of a 
cylindric root portion; the other end of said cylindric root portion, in 
turn, merging with a flat annular underside of a washer section integral 
with and having a diameter which is a multiple of that of the second 
cylindric portion; said washer section including a flat, circular upper 
face section generally parallel with and turned away from said underside; 
and a centrally disposed shallowly convex head portion projecting 
centrally from said upper face section and generally coaxial therewith, 
said head portion being provided with centrally disposed drive tool 
engagement recess compatible with a predetermined tool for driving said 
screw. 
The combination of the features defining the inventive screw may comprise 
further aspects. For instance, the root end of the stem is preferably 
cylindric. The helix usually extends over a major portion of the length of 
the stem portion. If the screw is a wood screw, the free end is pointed to 
facilitate its penetration into a wooden base. 
The structure of the screw of the present invention will now be described 
in greater detail with reference to the accompanying drawings, by way of 
several embodiments of a wood screw. It being understood that the 
principles of the combined structure can be used in other types of screws 
or bolts.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
The screw shown in the drawings is an integral product made from suitable 
steel, it being understood that certain applications may warrant or 
require different material, for instance nylon. 
The screw shown in the drawings comprises a stem portion 10. As is known, 
the stem portion has a free end portion 11 which, in the embodiment shown, 
is pointed. The opposite end of the stem 10 is designated as a root end 
12. A major part of the stem portion 10 is cylindric, the only deviation 
being at the pointed free end 11 where the shape is conical. A helical 
thread 13 projects from the surface of the stem portion 10. It extends 
from the pointed free end 11 and terminates at a root end portion 14 of 
the thread 13, which is spaced from the root end 12 of the stem 10. 
The root end 12 of the stem 10 is integral with a minor base end 15 of a 
frustoconical portion 16. The diameter of the root end 12 is the same as 
that of the minor base portion 15. Thus, the frustoconical portion 16 
projects axially from the root end 12 and is coaxial with the root end 
about a common axis 17 of the screw. 
The opposite end of the frustoconical portion 16 is a major base end 18. In 
the embodiment shown, the major base end 18 coincides with, and thus has 
the same diameter as a first end 19 of a root cylindric portion 20. The 
portions 18, 19 are integral and co-axial with the axis 17 and with each 
other. 
The other end 21 of the root cylindric portion 20 merges with a flat 
annular, downwardly facing underside 22 of a washer section 23 which is 
integral with the cylindric portion 20. The drawings show that the 
diameter B1 (FIG. 4) is a multiple of that B3 (FIG. 3) of the second 
cylindric portion 20. 
The washer section 23 defines a flat, annular upper face section 24. It is 
parallel with and is turned away from the underside 22. 
A centrally disposed, coaxial, shallowly convex head portion 25 projects 
upwardly from the upper face section 24. The head portion 25 is provided 
with centrally disposed drive tool engagement recess 26. The particular 
contour in plan of the recess is shown in FIG. 5. It is to be appreciated, 
however, that the specific type of the recess 26 is not a part of this 
invention and is optional. It has to be compatible with a predetermined 
tool for driving the screw into a base and preferably is suitable for use 
with a power tool when the screw is to be used in manufacturing furniture, 
wooden structures or other products where power screw driving tools are 
required. 
Reference may now be had to the examples of different measurements of the 
described parts of the screws as diagrammatically shown in FIGS. 3 and 4. 
While certain applications may require otherwise, it is generally preferred 
that the axial length A3 of the root cylindric portion 20 be smaller than 
its diameter B3 (FIG. 4) as this arrangement facilitates the application 
of the screw without the need of pre-drilling a bore in the workpiece. 
Another preferred feature is that while the specific diameter B2 of the 
head 25 is of course, smaller than the diameter B1 of the washer section 
23 it is larger than the diameter B3 of the root cylindric portion 20. The 
latter diameter B3 may be dictated by the size of bores in hardware with 
which the screw is to be used, for instance a hinge wing. 
The shallowly convex shape of the head portion combines with the particular 
physical structure of the washer section 23 to provide a relatively 
smooth, graduated rising of the head portion of the screw above the 
surface of the workpiece without sudden high corners which might cause 
injury, for instance to animals in zoo structures. The term "shallowly" 
convex used to describe the head portion 25 designates the general 
condition where the ratio of the axial height A1 of the head portion 25 to 
its diameter B2 is in the range of about 0.2 to about 0.25, in other 
words, the axial height of the head portion 25 above the washer section 23 
is generally less than about 1/4 of the diameter of the head portion 25 at 
the upper surface of the washer section 25. By the same token, it is 
preferred that the ratio of the thickness A2 of the washer section 23 to 
the axial height A1 of the head portion 25 be in the range of about 0.75 
to about 0.9, in other words, the thickness A2 of the washer 23 smaller 
than the height A1 of the convex head portion 25. 
With particular reference to FIGS. 3 and 4, the following Table 1 presents 
three examples of different embodiments of the screw of the present 
invention, having typical physical measurements of individual portions of 
the screw. The three embodiments shown are 6, 7 and 8 mm which roughly 
corresponds to 1/4"; 5/16" and 3/8" wood screws each having a total length 
of about 80 mm, respectively. The respective size particulars of the 
inventive screw, are described using reference characters of FIGS. 3 and 
4. 
TABLE 1 
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SIZE TICULARS OF THREE EMBODIMENTS OF THE 
INVENTIVE SCREW (in mm) 
Size of the screw 8 7 6 
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A1 Head 25 height 2.4 2 1.6 
A2 Washer 23 thickness range 
1.8-1.5 1.6-1.3 1.4-1 
A3 Axial length of root cylinder 20 
2 (max) 2 (max) 1.5 (max) 
A4 Axial length of frustocon, port. 16 
2 (max) 2 (max) (1.5 max) 
B1 Diameter range of washer section 23 
18.5-16 16.5-14 14-12.5 
B2 Diameter range of head portion 25 
10.5-10 10-9.7 9-8.7 
B3 Diameter range of cylindric root 20 
9.4-8.9 7.8-7.3 6.3-5.9 
B4 Outer dia. range of thread 13 
8-7.5 7.2-6.7 6.2-5.7 
B5 Diameter range of stem portion 10 
5.4-5.1 4.82-4.79 
4.24-4.18 
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It follows from the Table 1 that a wide range of screws according to the 
present invention can be produced. 
The contrast between the smoothness of the head section 23-25 of the 
Inventive screw and an existing screw or bolt can be appreciated upon 
review of FIG. 2. The broken line shows diagrammatically the contour 27 of 
a comparable wood screw or bolt, having the same overall height and thus 
strength in torque. As is known, the head 27, has a relatively high side 
section 28 which may give rise to injuries. Another disadvantage is in 
that the relatively small surface area of the underside of the head 27 may 
result in excessive specific pressure detrimental to the surface of a 
wooden workpiece and also reducing the tightness of the fastening. 
It has also been established that the screw of the present invention, 
manufactured within the above tolerances possesses torque strength which 
makes it suitable for use with power screw driving tools while utilizing a 
drive tool engagement cavity or recess 26. It is believed that this is due 
to an inventive feature whereby the length of the frustoconical portion 16 
generally corresponds to that of the root cylindric portion 20. 
Those skilled in the art will readily appreciate that various modifications 
can be made to the screw of the present invention departing from the 
structural particulars of the embodiments described, without departing 
from thescope of the present invention. Accordingly, we wish to protect by 
letters patent which may issue on this application all such embodiments as 
properly fall within the scope of our contribution to the art.