Hand held implement sharpening device

A device for sharpening the blade or blade-like surfaces of knifes or other implements. The device is a small hand held sharpening device which provides rigidity and stability of the sharpening edge during use. The sharpening device employs a notched plate which interacts with the housing material surrounding the plate to resist the forces, present during use, which tend to urge the sharpening edge to move. By utilizing this design, the amount of material required for the housing material which surrounds the plate is minimized. Minimal housing allows the sharpening device to be particularly maneuverable in small areas. Minimal housing material, as well as ergonomic design, also allow for ease of use of the sharpening device.

BACKGROUND 
1. The Field of the Invention 
This invention relates generally to devices for sharpening the blades or 
blade-like edges of knives, scissors, and other implements. More 
specifically, this invention relates to small, light weight, hand held 
devices which provide for sharpening and deburring of the blades or 
blade-like edges of a variety of implements. 
2. The Background Art 
Devices for the sharpening and deburring of blades and blade-like edges of 
implements have been in use since the advent of metal implements. 
Historically, sharpening devices were cumbersome and required 
semi-permanent installation. This, in turn, meant that sharpening devices 
were effectively restricted to a permanent location. 
As materials and technology progressed, smaller sharpening devices 
developed. The discovery of materials which could be processed to have 
extremely hard sharpening surfaces aided in these advancements. These 
materials allowed for sharpening devices which could employ a small 
sharpening surface. 
The development of hand held sharpening devices soon followed. The ability 
to employ a small sharpening surface allowed for the development of small 
sharpening devices and led naturally to hand held versions. These devices 
provided portability not previously available. 
With the advent of modern materials, having extremely hard surfaces, hand 
held sharpeners have become relatively common place. A wide variety of 
such devices have developed. These range from large devices to pocket size 
devices. These typically employ extremely hard materials as sharpening 
surfaces. 
Hand held sharpeners utilizing an extremely hard sharpening surface provide 
exceptional sharpening abilities in a small device. These modern materials 
do, however, have certain drawbacks. For example, extremely hard materials 
are often quite expensive. It can also be expensive to polish these 
materials into a sharpening surface. 
These modern extremely hard materials also have certain advantages in 
addition to providing an exceptional sharpening surface when processed and 
polished. For example, certain materials, when processed, have a natural 
texture. This texture provides an excellent deburring surface in its 
unpolished state. 
An example of a hand-held device would include a blade holder and a blade 
or sharpening surface at the other. The blade holder typically includes an 
area which the user grips during use. The sharpening surface usually is 
created by exposing a polished edge or edges of material which act as a 
blade. This blade is used for sharpening. 
During use, forces are placed upon the blade such that the blade tends to 
try to move with regard to the handle. In order to have adequate 
stability, therefore, such sharpeners often employ a relatively large 
quantity of housing material surrounding the sharpening edge. This 
quantity of material can hamper the usefulness of the sharpening edge by 
preventing maneuvering of the blade in tight areas or by interfering with 
use of the blade during the sharpening operation. 
It would therefore be an advantage in the art to provide a small hand held 
sharpener which employed a minimal amount of housing material surrounding 
the blade or sharpening surface while at the same time achieving adequate 
stability. 
BRIEF SUMMARY AND OBJECTS OF THE INVENTION 
The present invention is a device for sharpening knives, implements or 
other devices having a blade or blade-like surface. The sharpening device 
includes a handle and a plate having sharpening surfaces or edges. 
In a preferred embodiment, the plate is manufactured of tungsten carbide 
and is rectangular in shape. The short sides of the rectangle are notched 
while the long sides of the rectangle provide the sharpening surfaces. 
Preferably, one of the long sides or edges is left as is or only partially 
refined so as to provide a deburring surface while the other long side or 
edge is refined so as to provide a sharpening surface. 
The plate is partially enclosed within the material of the handle such that 
the notched edges are enclosed while the long edges are exposed so as to 
be available for use in sharpening. The notches in the plate provide a 
butterfly shape which interacts with the material of the handle to resist 
the forces, present during use, which tend to force the plate to move with 
respect to the handle. 
The sharpening edges of the plate of the inventive device will come in 
contact with a knife or implement blade during use of the inventive 
sharpening device. During such use, the plate will be urged to shift or 
give with relation to the handle. The notches in the plate, enclosed with 
the plastic material of the handle serve to greatly reduce or eliminate 
the ability of the plate to move with relation to the handle. Thus, the 
plate remains substantially stable during use of the sharpening device of 
the present invention. 
The handle is preferably manufactured of a plastic material which is formed 
partially around the plate. As discussed above, the plastic of the 
material interacts with the notches or butterfly shape of the plate in 
such a way as to provide stability of the plate during use of the 
sharpening edges. Plastic is particularly advantageous in this regard as 
it can be easily molded to conform to the shape of the plate. 
Accordingly, it is a primary object of the present invention to provide a 
small lightweight sharpening device having a stable sharpening edge or 
edges. 
It is a further object of the present invention to provide a sharpening 
device which requires minimal material for entrapping the blade. 
A still further object of the invention is to provide a sharpening device 
which can be maneuvered in tight areas. 
These and other objects of the present invention will become apparent from 
the following description and appended claims or may be learned by the 
practice of the invention as set forth herein.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
Reference is now made to the embodiments illustrated in FIGS. 1 through 4 
wherein like numerals are used to designate like parts throughout. FIG. 1 
depicts a top view of the preferred embodiment of the inventive sharpening 
device shown generally at 10. As shown, the inventive sharpening device 
includes a handle end 14 and an engagement end 18. 
Handle end 14 and engagement end 18 collectively form the body of the 
device. The body of the device is preferably manufactured of a plastic 
material. The plastic material will typically not be entirely rigid but 
rather have some minimal flexibility. It is contemplated, however, that 
any plastic which can withstand the forces applied during use of the 
device for sharpening would be acceptable. Additionally, other materials 
such as metal or wood may be used. 
Ridges 22, curved portion 26, and dished area 30 are also illustrated in 
handle end 14. Ridges 22, curved portion 26, dished area 30, and raised 
ridge 32 are ergonomically designed to provide a comfortable grip for the 
user of sharpening device 10. As will be appreciated, in some instances 
the effectiveness of sharpening device 10 will depend in part on the 
ability to apply controlled force to sharpening device 10. The ability to 
control the force applied between sharpening device 10 and the blade of 
the knife or implement to be sharpened can effect the quality of 
sharpening accomplished. By providing ridges 22 to act as finger grips, 
curved portion 26 to better fit the contours of the palm of the users 
hand, and dished area 30 and raised ridge 32 to provide a thumb brace for 
the thumb of the user, the control of the user over the force applied is 
optimized. 
Additionally, providing finger grips, palm contouring and a thumb brace in 
handle end 14 allows for added comfort in the use of sharpening device 10. 
If the surface is left flat, without ridges, it is more difficult for the 
user to grip. The user may, in fact, be required to use additional force 
to adequately grip sharpening device 10. This may result in discomfort and 
cramping, particularly in extended use of sharpening device 10. 
Incorporation of ridges 22, curved portion 26, dished area 30, and raised 
ridge 32 so as to provide a comfortable gripping surface can extend the 
amount of time a user can employ sharpening device 10 in relative comfort. 
Also incorporated in handle end 14 of sharpening device 10 is a circular 
opening 34. Circular opening 34 may be used in a number of ways. Circular 
opening 34 allows for sharpening device 10 to be included on a key ring, 
hung on a tool organizer, attached to a work bench, or may provide other 
means for keeping sharpening device 10 in a certain vicinity. Typically a 
small diameter cord or chain (not shown) would be placed through circular 
opening 34. In this way, sharpening device 10 could be attached to a key 
ring, tool organizer, work bench, or other area. For example, it is shown 
in FIG. 1 that the plate 38 is entrapped as described, in that the notches 
42 and 46 are embedded within the body of the device 10 such that portions 
of the body extend into the notches so as to hold the plate 38 in its 
rigid position with respect to the body, providing the interaction between 
the notches and the body as noted above. The notches 42 and 46 are 
preferably V-shaped and are respectively formed in proximal and distal 
ends of the plate 38 as shown, but may of course comprise other shapes as 
well. The plate 38 is thus enclosed within the body in such a manner that 
the body circumscribes the plate around the proximal and distal ends in 
which the notches 42 and 46 are respectively formed, such that at least a 
majority of the distal end 46 is covered by the body of the device 10 as 
shown in FIG. 1. 
Turning to engagement end 18, plate 38 is shown partially disposed within 
the body of sharpening device 10 at engagement end 18. Plate 38 is 
preferably made of tungsten carbide material, however, it is contemplated 
that plate 38 could be manufactured of other materials. For example, in 
certain sharpening applications, the quality of the edge achieved may be 
less critical and the price of the sharpening device may be of great 
concern. In such instances, a material which is less effective than 
tungsten carbide in sharpening but which is less expensive may be 
suitable. 
As illustrated, plate 38 is generally rectangular in shape and is 
manufactured with a handle end notch 42 and an engagement end notch 46 
along the short edges of the rectangle. It is contemplated that plate 38 
could be manufactured other than generally rectangular without departing 
from the scope of the present invention. Any geometric shape which would 
allow for notches and sharpening edges would be acceptable. 
The notches in plate 38 are designed to interact with the material of the 
body of sharpening device 10 so as to resist the forces applied to 
sharpening device 10 when in use. In this way, a stable sharpening surface 
is provided with a minimal amount of material acting to entrap plate 38 at 
engagement end 18 of sharpening device 10. 
Additionally, incorporating notches minimizes the amount of material used 
in plate 38. Tungsten carbide is a relatively expensive material thus 
costs may be contained by minimizing the amount of tungsten carbide 
required. Tungsten carbide is a material which must undergo a 
manufacturing process to become useful as a hardened sharpening surface. 
In creating plates for use in sharpening, the notched rectangular plates 
may be fashioned from tungsten carbide plate prior to submitting the 
material to the hardening process. In this way, the material cut away to 
form the notches can be reused. This minimizes the amount of material used 
in manufacturing each sharpening device and thus reduces the costs. 
Plate 38 also incorporates sharpening edge 50 and deburring edge 54 along 
the long sides of the rectangle of plate 38. Sharpening edge 50 is 
manufactured by further refining sharpening edge 50. Deburring edge 54 is 
typically simply left as is since deburring requires a less polished 
surface, and tungsten carbide naturally provides a surface suitable for 
deburring when cut. If desired, the deburring edge may be further refined 
to provide a more polished surface however, this adds to the costs 
associated with producing sharpening device 10. 
When further refined or polished, tungsten carbide provides an extremely 
hard high quality sharpening surface. This surface is exposed in 
sharpening edge 50. As depicted, sharpening edge 50 is along the same side 
of sharpening device 10 as ridges 22. As will be appreciated, placing 
sharpening edge 50 along this side of sharpening device 10 provides for 
greatest control during sharpening. This is preferable since it will 
typically be the users desire to have as much control as possible during 
sharpening while being less concerned about the degree of control during 
the less precise activity of deburring. 
When sharpening device 10 is in use, either sharpening edge 50 or deburring 
edge 54 contact the blade or blade-like surface of an implement requiring 
sharpening. Typically a user of the sharpening device of the present 
invention will first employ deburring edge 54 to remove large anomalies on 
the blade or blade-like surface of the implement. A user of the sharpening 
device of the present invention will then employ sharpening edge 50 so as 
to accomplish the final sharpening of the blade or blade-like surface of 
the implement. 
As will be appreciated, either of these operations applies forces to plate 
38. The forces applied will tend to cause plate 38 to rotate or move in 
some fashion with relation to the body of sharpening device 10. 
Handle end notch 42 and engagement end notch 46 resist such motion. The 
interaction of the notches and the material of the body of sharpening 
device 10 provide significant resistance to motion. Thus, the amount of 
material required to enclose plate 38 is minimized while at the same time 
providing the stability and rigidity necessary for proper use of 
sharpening device 10. 
Turning to FIG. 2 an alternative embodiment of the present invention is 
illustrated generally at 58. This embodiment incorporates a deburring side 
tapered portion 62 on engagement end 18. Deburring side tapered portion 62 
is located on the same side of sharpening device 58 as curved portion 26 
and deburring edge 54. Deburring side tapered portion 62 allows a user to 
maneuver in tighter spaces to debur a blade or blade-like surface prior to 
sharpening. 
Also depicted is sharpening side tapered portion 66. Sharpening side 
tapered portion 66 is disposed on the same side of sharpening device 58 as 
ridges 22 and sharpening edge 50. Sharpening side tapered portion 66 
allows a user to maneuver in tighter spaces to sharpen a blade or blade 
like surface in a manner similar to deburring side tapered portion 62. 
An alternative configuration of plate 38 is also illustrated. In this 
configuration, plate 38 incorporates handle end notch 42 and engagement 
end flat edge 70. As shown, engagement end flat edge 70 does not 
incorporate a notch. Here in this configuration, handle end notch 42 is 
the only notch employed to act against the forces present in use of 
sharpening device 58. 
Turning to FIG. 3 another alternative embodiment of the present invention 
is shown generally at 74. In this embodiment, only sharpening edge 50 is 
exposed. Deburring edge 54 is not exposed. Rather, deburring edge 54 is 
enclosed in the material of the body of sharpening device 74 at engagement 
end 18. 
In this configuration, engagement end 18 incorporates housing 78 by 
extending the material along the side of curved portion 26 such that 
deburring edge 54 is enclosed rather than exposed. This configuration 
provides only one sharpening surface and may be particularly advantageous 
in applications where deburring is of little or no importance. The 
addition of housing 78 may also provide additional stability of sharpening 
edge 50 during use. 
Also illustrated in this embodiment is the fact that engagement end notch 
46 of plate 38 need not be disposed entirely within the material of the 
body of sharpening device 74. Here corner 82 of plate 38 of engagement end 
notch 46 is left exposed. It will be appreciated that only a portion of 
any notch need be enclosed within the material of the body of sharpening 
device 74 in order to provide stability and rigidity of plate 38 during 
use in sharpening a blade or blade-like surface of an implement. 
Turning to FIG. 4, a side view of the present invention, as depicted in top 
view in FIG. 1, is shown. Here, the surface of sharpening edge 50 is 
depicted. Also illustrated is dished area 30. As will be appreciated, a 
user can position a thumb on dished area 30 pressing against raised ridge 
32 to gain added stability of sharpening device 10 during use. 
The invention may be embodied in other specific forms without departing 
from its spirit or essential characteristics. The described embodiments 
are to be considered in all respects only as illustrative and not 
restrictive. The scope of the invention is, therefore, indicated by the 
appended claims, rather than by the foregoing description. All changes 
which come within the meaning and range of equivalency of the claims are 
to be embraced within their scope.