This invention relates generally to hand woodworking tools called spokeshaves, and specifically to spokeshaves having a wooden handle and body and spokeshaves having adjustable blades.
In spite of modern alternatives, traditional wooden spokeshaves are still popular tools. Such spokeshaves have an integrally formed body and handles made of wood, which is lightweight, easy to shape to suit the user, and pleasant to look at and use. They all share a common weakness; however, it is difficult to adjust depth of cut.
Normally wooden spokeshave blades are hand forged with upturned tangs that fit into holes pierced in the body of the shave. The tangs are wedged in position, and they are adjusted by tapping the ends of the tangs or the base of the blade, as required to move the blade toward or away from the body to adjust the depth and uniformity in thickness of cut. Various methods have been developed to improve this somewhat haphazard process. However, they are typically not very positive, or require the use of a tool such as a screwdriver or that the blade be completely removed to make even a small adjustment.
Metal body spokeshaves have developed thumbscrew arrangements for sliding a flat blade relative to the surface on which the blade's back surface (the blade surface that intersects the sharpening bevel) beds in order to adjust depth of cut. However, this type of structure will not work for a traditional wooden spokeshave, because the blade of a wooden spokeshave is adjusted by moving it normal to its back surface rather than in the same plane as that surface.
This invention is a spokeshave, and the metal components for making a wooden spokeshave, providing an easily used depth of cut adjustment that is simple, effective and requires no extra tool or blade removal for adjustment. In the spokeshave of this invention, the blade is mounted on two posts that project normal to the back of the blade, and the posts are received in structures adjustably positioned within the spokeshave body. Adjustment of the positions of the post-receiving structures cause the blade to move toward or away from the body.
As may be understood by reference to the drawings, the spokeshave 10 of this invention includes a body 12 to which a blade 14 is attached by posts 16 by screwing threaded lower ends 18 of posts 16 into threaded holes 20 in blade 14 and locking the posts 16 within blade 14 with locknuts 22. Each blade post 16 is received in a post receiver 24, which is a tube or sleeve threaded on the outside, smooth on the inside and having a knurled flange or thumb wheel 26 on one end.
As will be understood by reference to
Blade “chatter” occurs in spokeshaves, planes and other similar tools if the geometries and materials of the tool permit the blade to in effect oscillate during use. This typically occurs where a blade or structures that hold the blade project far enough and are flexible enough to permit bending.
In a spokeshave having a blade attached to tangs or posts like posts 16, chatter can occur if the tangs or posts can bend or shift during use, thereby permitting the blade to move in the body during use. If the end 25 of receiver 24 is flat and bears against a flat surface associated with the post 16 or blade 14, the post can shift slightly within receiver 24 and thereby permit blade chatter.
However, as shown in
In order to adjust blade 14 position, the locknuts 32 are loosened in order to permit post receivers 24 to rotate, and post receivers 24 are rotated by rotating thumbwheels 26 in order to advance or retract the blade by changing the positions of receivers 24 in body 12. Once the desired repositioning has occurred, locknuts 32 are rotated to lock them against thumbwheels 26 and thereby re-secure the blade 14 in a fixed position as posts 16 are locked within receivers 24.
As is easily seen in
Since a wood handle may be fabricated by a user, the metal parts of the spokeshave 10 of this invention (all of the parts shown in
Blade 14 should be made of an appropriate type of steel, such as tool steel, including A2 tool steel. Posts 16 will typically be steel, although other metals could be used, and the other metal parts may be brass, steel or any other suitable materials.
As will be understood by those skilled in the art of tool design and manufacture, the spokeshave 10 of this invention could be made in a number of alternative configurations and using a number of alternative parts without departing from the spirit of this invention or the spirit scope of the following claims.
For instance, different arrangements of threads on posts 16, post receivers 24, locknuts 22 and locknuts 32 could be used, provided that such alternative structures provide a method of moving posts 16 in and out of body 12 in a controlled, incremental fashion with the ability to lock or otherwise secure the blade position is selectable desired alternative positions.
Among such possible alternatives, nuts 22 could instead be shoulders integrally formed on posts 16. As another alternative, posts 16 could be permanently attached to blade 14, although that is less desirable because it complicates sharpening blade 14. In yet another alternative structure, post receivers 24 could be threaded on the inside and configured to be rotatable within body 12 without changing position in body 12. Such rotation would thereby cause the associated post 16 to move into or out of body 12, and it could still be locked in position by a locknut 32.
This application claims priority to provisional application No. 60/568,395 filed May 5, 2004
Number | Date | Country | |
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60568395 | May 2004 | US |