ADJUSTABLE ACCESSORY FENCE FOR A MITER SAW
An adjustable accessory fence for a miter saw includes a generally rectangular, elongated arm having a front surface, an opposing rear surface, a stop extending from the rear surface, a tapered end, an opening extending between the front and rear surfaces, and a plurality of threads disposed within the opening. A threaded set screw engages the threads of the arm and adjustably projects from the rear surface of the arm. The arm is detachably coupled to a cutting fence of the miter saw. The arm pivots about the stop when the set screw is adjusted to project from the rear surface of the arm and contact the cutting fence, the front surface of the arm providing a cutting guide having an adjustable angular relationship with respect to the cutting fence, said angular relationship being established by the projecting position of the set screw.
This application is a divisional of U.S. patent application Ser. No. 11/361,944, filed Feb. 24, 2006, which claims the benefit of U.S. provisional patent application 60/655,726, filed Feb. 25, 2005, the contents of each being incorporated by reference in accordance with 37 C.F.R. §1.57.
FIELDThis invention relates to carpentry tools. In particular, this invention relates to a miter joint assembly system and method for sawing, drilling and fastening mitered moldings together.
BACKGROUNDOne of the tasks in finish carpentry involves the trimming of doors and windows with mitered casements. It is desirable to make the miter joints with a close-fitting or “tight” fit, as this is indicative of high-quality workmanship. Miter saw tables have been developed for the purpose of sawing the casements to form the miter joints. A typical miter saw table comprises a central table to which a pivot arm of the saw is rotatably mounted on a vertical axis. A fixed fence comprising coextensive lateral wings extend from each side of the central table, the rear edges of the wings having vertical rail elements and against which a work piece to be cut is maintained during the cutting operation.
Difficulty is often encountered in making tight mitered joints with current methods. This is primarily due to wood movement and fastening methods. Limitations of spring-loaded detents in the angular adjustment features of the pivot arms of miter saws and the small increments on the miter scales make it difficult to make the slight adjustments necessary to make fine adjustments in the cuts. Even when the detents and protractor scale of the miter saw are nearly perfect and produce cut angles that are perfectly divided, slight changes in humidity regularly open up what was once a well-fit miter joint when initially installed.
Numerous methods and tools have been devised in an attempt to improve the mitered casement, including the use of iron clamps, spring clamps, band clamps and other corner clamping devices, along with dowels and splines. Some carpenters use screws to hold a mitered joint together. However, because of the tapering thicknesses of most casements it is difficult to keep the screws from breaking through the surface of the casement. It is also difficult to position the screw so as to maintain generally constant pressure along the length and width of the miter joint. In addition to these shortcomings, current tools and methods are also time-consuming. There is a need to fabricate close-fitting miter joints in a speedier way. There is a further need for miter joints having greater permanence.
SUMMARYThe disclosed invention is a system and method that overcomes the limitations of the prior art by providing an angularly adjustable accessory fence to enable minute adjustments of miter cuts. For example, the miters may be cut so that the assembled joint is slightly greater than the required angle by several minutes of one degree, resulting in a miter joint having a permanently tight, generally uniform seam along the entire length of the joint when the outside corner is mechanically locked and the mitered moldings of the assembly are sprung into the desired position. This results in a pre-loaded miter joint that accommodates seasonal shrinking or swelling of the material without breaking of the joint.
The miter joint assembly system comprises an assembly plate and associated tooling. The system provides a quick and accurate way to saw, align, clamp, drill and fasten mitered casement pieces together. In addition, a method for insuring that the full length of the seam between the pieces is tight and without void or open seam is disclosed. The assembly plate is a flat surface with a guide fence for the support of two mitered pieces of molding in their proper alignment, the plate being connected to a tooling plate opposite the assembly surface. Two offset surfaces are divided by the fence, the lower surface serving to support drill bushings and maintain angular alignment of the bushings perpendicular to the mitered cut at the intersection of the two mitered pieces. A guide bushing is housed in a rectangular form with the center point of the bushing and is incrementally varied as measured perpendicular to each of the four sides. Each side of the rectangular form has a registration groove parallel to the length of the bushing and on a radial line perpendicular to the side, the registration groove being fitted to a spline or key fixed in the support plate. This allows for varying drill heights as the form is rotated, thus allowing on-center drilling for various molding thicknesses.
The disclosed invention further utilizes wood screws that function both as clamps and as permanent fasteners. The edges of a miter joint are cut so that the assembled joint is slightly greater than the required angle by several minutes of one degree. A single screw keeps the outside corner of the joint tight. The screw also acts to pull the moldings to a predetermined angle such that pressure is generated at an inside corner of the joint as the mitered moldings or “legs” are sprung into the desired position for installation, producing a tight seam along the entire length of the joint. The screw is quickly and easily located and installed using the disclosed invention.
An embodiment of the present invention is an adjustable accessory fence for a miter saw includes a generally rectangular, elongated arm having a front surface, an opposing rear surface, a stop extending from the rear surface, a tapered end, an opening extending between the front and rear surfaces, and a plurality of threads disposed within the opening. A threaded set screw engages the threads of the arm and adjustably projects from the rear surface of the arm. The arm is detachably coupled to a cutting fence of the miter saw such that the edge of the stop engages the cutting fence. The arm pivots about the stop when the set screw is adjusted to project from the rear surface of the arm and contact the cutting fence, the front surface of the arm providing a cutting guide having an adjustable angular relationship with respect to the cutting fence, said angular relationship being established by the projecting position of the set screw.
Another embodiment of the present invention is a method for providing a cutting guide having an adjustable relationship with respect to a cutting fence of a miter saw. A generally rectangular, elongated arm having a front surface and an opposing rear surface is provided. A stop is extended from the rear surface of the arm, the stop including an edge. An end of the arm is tapered. An opening is formed in the arm, the opening extending between the front and rear surfaces. A plurality of threads are formed within the opening. A threaded set screw engages the threads of the arm, the set screw adjustably projecting from the rear surface of the arm. The arm is detachably coupled to the cutting fence such that the edge of the stop engages the cutting fence. The set screw is adjusted to project from the rear surface of the arm and contact the cutting fence, the arm pivoting about the stop. The front surface of the arm provides a cutting guide having an adjustable angular relationship with respect to the cutting fence, the angular relationship being established by the projecting position of the set screw.
Further features of the inventive embodiments will become apparent to those skilled in the art to which the embodiments relate from reading the specification and claims with reference to the accompanying drawings, in which:
Certain terminology may be employed in the description to follow for convenience rather than for any limiting purpose. For example, the terms “forward,” “rearward,” “right,” “left,” “upper,” and “lower” designate directions in the drawings to which reference is made, respectively, to directions toward and away from the center of a referenced element. Terminology of similar import other than the words specifically mentioned above likewise is to be considered as being used for purposes of convenience rather than in any limiting sense. For the purposes of the discourse to follow, the precepts of the miter assembly plate and components of the invention herein involved are described in regard to its utilization in connection with the assembly of mitered moldings made of wood, wood composite or any other appropriate material.
With reference to
With reference to
With continued reference to
With reference also to
With reference to
Arm 212 is generally rectangular and longitudinal, with a tapered end 220. Tapered end 220 provides clearance between accessory fence 210 and a saw blade for various angular settings of the pivot arm of the miter saw, as will be detailed further below. Arm 212 further includes an opening 222 extending through the width of the arm from a front surface 224 to a rear surface 226. Arm 212 may be formed from any suitable material including, without limitation, wood, plastic, metal and composites, and may be formed by any conventional process, such as sawing, molding, casting, machining and lay-up.
A plurality of indices 228 are formed on front surface 224, generally surrounding opening 222. Indices 228 may be integrally formed with arm 212, such as by molding or machining, or may be a self-adhesive label. Indices 228 may also be applied with a pencil, ink pen or permanent marker using a stencil, such as stencil 230, shown in
Arm 212 may be fitted with a stop 214 to position the arm with respect to a cutting fence of a miter saw, as will be further explained below. Stop 214 extends from rear surface 226 and includes a stop edge 232 that is generally orthogonal to the rear surface. Stop 214 is configured to engage a cutting fence, as detailed further below. Stop 214 may be integrally formed as part of arm 212, or may be formed separately and attached to the arm. Stop 214 may be formed from any suitable material including, without limitation, wood, plastic, metal and composites, and may be formed by any conventional process, such as sawing, molding, casting, machining and lay-up. In various embodiments stop 214 may be permanently fastened to arm 212, or may be movable along the length of the arm and releasably secured thereto with any type of conventional fasteners, such as screws, latches, locks, retainers, hook-and-loop, and tabs.
With particular reference now to
As shown in
An adjustment tool 242 for use with accessory fence 210 is shown in
Referring now to
Fastener 252 is located intermediate stop edge 232 and opening 222, generally proximate stop 214. Fastener 252 may be any type of clip or clamp having threads or a biasing element 256, such as a spring, to resiliently urge arm 212 against cutting fence 249.
With reference to
Once set screw 218 is adjusted to slightly contact cutting fence 249 as described above, the position of pointer 246 relative to indices 228 is noted. If desired, pointer 246 may be rotated about longitudinal portion 245 of driver 244 such that the pointer is generally aligned with a selected index mark 228. Adjustment tool 242 is then rotated to cause set screw 218 to project from arm 212 by a determinable amount, which is measurable by observing the rotation of pointer 246 relative to indices 228. In response to the projection of set screw 218 against cutting fence 249, arm 212 pivots generally about stop edge 232 and is forced away from the cutting fence by small angular increments that are proportional to the portion of the set screw that projects from arm 212. Front surface 224 accordingly serves as a finely-adjustable cutting fence, allowing for precise setting of the angular relationship between the front surface and the cutting fence. Material to be miter cut is placed against surface 226, the angle of the cut being determined by the pivot arm 260 of the miter saw in combination with the relative orientation of front surface 224 with respect to cutting fence 249, as established by set screw 218.
With continued reference to
- where: x=the distance along cutting fence 249 from a pivot point p, established by stop edge 232, to set screw 218 at its point of contact with the cutting fence; and
- y=the distance that set screw 218 projects from rear surface 226 of arm 212.
Using Equation 1, indices 228 and pointer 246 may be calibrated such that each index mark represents a determinable fraction of a degree of change in the angular relationship between cutting fence 48 and front surface 224 of arm 212. The calibration can be determined by calculating or measuring the change in x and y as adjustment tool 242 is correspondingly rotated from one index mark 228 to an adjacent index mark.
- y=the distance that set screw 218 projects from rear surface 226 of arm 212.
In various embodiments a threaded insert 216 and set screw 218 having a greater or lesser mating thread pitch may be selected, depending upon the resolution of adjustment desired for accessory fence 210. For example, if a smaller degree of change in 0 is desired for each movement of pointer 246 from one index mark 228 to an adjacent index mark is desired, a threaded insert 216 and set screw 218 having corresponding finer pitches of threads 236, 238 (see
Accessory fence 210 is shown in the various figures being mounted to the left of saw blade 254, and thus may be termed a “left-hand” accessory fence for cutting one casement to form a first half of the mitered joint. One skilled in the art will readily realize that many miter saws include a cutting fence extending not only to the left of the saw blade, but also to the right as well in order to cut a second casement to form the second half of the mitered joint. The accessory fence of the present invention may likewise be configured as a “right-hand” accessory fence, the right-hand configuration being a mirror image of the left-hand configuration disclosed herein and coupled to a right-hand fence 262 (see
With reference to
In operation of the disclosed invention, mitered pieces 14a, 14b are cut on a miter table to the desired angle (
While this invention has been shown and described with respect to a detailed embodiment thereof, it will be understood by those skilled in the art that changes in form and detail thereof may be made without departing from the scope of the claims of the invention.
Claims
1. An adjustable accessory fence for a miter saw, comprising:
- a generally rectangular, elongated arm having: a front surface, an opposing rear surface, a stop extending from the rear surface, the stop further including an edge, a tapered end, an opening extending between the front and rear surfaces, and a plurality of threads disposed within the opening; and
- a threaded set screw engaging the threads of the arm and adjustably projecting from the rear surface of the arm,
- wherein the arm is detachably coupled to a cutting fence of the miter saw such that the edge of the stop engages the cutting fence, and
- wherein the arm pivots about the stop when the set screw is adjusted to project from the rear surface of the arm and contact the cutting fence, the front surface of the arm providing a cutting guide having an adjustable angular relationship with respect to the cutting fence, said angular relationship being established by the projecting position of the set screw.
2. The adjustable accessory fence of claim 1, further comprising a fastener to detachably couple the arm to the cutting fence.
3. The adjustable accessory fence of claim 2 wherein the fastener is a biased clamp.
4. The adjustable accessory fence of claim 1, further comprising an adjustment tool sized and shaped to engage the set screw, the adjustment tool being movable to adjust the projecting position of the set screw.
5. The adjustable accessory fence of claim 4 wherein:
- the adjustment tool includes a drive end; and
- the set screw further includes a drive portion sized and shaped to receive the drive end of the adjustment tool.
6. The adjustable accessory fence of claim 4, further comprising:
- a plurality of indices surrounding the opening in the front surface of the arm; and
- a pointer coupled to the adjustment tool, the pointer cooperating with the indices to provide an indication of the angular relationship between the cutting fence and the front surface of the arm.
7. The adjustable accessory fence of claim 6 wherein the indices are integrally formed with the arm.
8. The adjustable accessory fence of claim 6 wherein the indices are applied to the arm.
9. The adjustable accessory fence of claim 8 wherein the indices are in the form of a printed label.
10. The adjustable accessory fence of claim 8 wherein the indices are applied with at least one of a pencil, ink pen, permanent marker and stencil.
11. The adjustable accessory fence of claim 1 wherein the stop is integrally formed with the arm.
12. The adjustable accessory fence of claim 1 wherein the stop is made separately and attached to the arm.
13. The adjustable accessory fence of claim 12 wherein the stop is fixedly attached to the arm at a predetermined position.
14. The adjustable accessory fence of claim 12 wherein the stop is movable to select positions along the length of the arm and is selectably securable thereto.
15. The adjustable accessory fence of claim 1 wherein:
- the threads of the opening of the arm are internal threads; and
- the threaded set screw includes external threads sized and shaped to engage the internal threads of the opening.
16. The adjustable accessory fence of claim 1 wherein the threads within the opening are integrally formed with the arm.
17. The adjustable accessory fence of claim 1 wherein the threads of the opening further comprise a threaded insert.
18. An adjustable accessory fence for a miter saw, comprising:
- a generally rectangular, elongated arm having: a front surface, an opposing rear surface, a stop extending from the rear surface, the step further including an edge, a tapered end, an opening extending between the front and rear surfaces, and a plurality of threads disposed within the opening;
- a threaded set screw engaging the threads of the arm and adjustably projecting from the rear surface of the arm;
- an adjustment tool sized and shaped to engage the set screw through the opening, the adjustment tool being movable to adjust the projecting position of the set screw; and
- a biased fastener to detachably couple the arm to a cutting fence of the miter saw,
- wherein the arm is detachably coupled to the cutting fence such that the edge of the stop engages the cutting fence, and
- wherein the arm pivots about the stop when the set screw is adjusted to project from the rear surface of the arm and contact the cutting fence, the front surface of the arm providing a cutting guide having an adjustable angular relationship with respect to the cutting fence, said angular relationship being established by the projecting position of the set screw.
19. The adjustable accessory fence of claim 18, further comprising:
- a plurality of indices surrounding the opening in the front surface of the arm; and
- a pointer coupled to the adjustment tool, the pointer cooperating with the indices to provide an indication of the angular relationship between the cutting fence and the front surface of the arm.
20. A method for providing a cutting guide having an adjustable relationship with respect to a cutting fence of a miter saw, the method comprising the steps of:
- providing a generally rectangular, elongated arm having a front surface and an opposing rear surface;
- extending a stop from the rear surface of the arm, the stop further including an edge;
- tapering an end of the stop;
- forming an opening in the arm, the opening extending between the front and rear surfaces;
- forming a plurality of threads within the opening;
- engaging the threads of the arm with a threaded set screw, the set screw adjustably projecting from the rear surface of the arm;
- detachably coupling the arm to the cutting fence such that the edge of the stop engages the cutting fence; and
- adjusting the set screw to project from the rear surface of the arm and contact the cutting fence, the arm pivoting about the stop,
- wherein the front surface of the arm provides a cutting guide having an adjustable angular relationship with respect to the cutting fence, said angular relationship being established by the projecting position of the set screw.
Type: Application
Filed: Sep 25, 2009
Publication Date: Feb 11, 2010
Inventor: DAVID COLLINS (PLAIN CITY, OH)
Application Number: 12/566,775
International Classification: B23D 59/00 (20060101); B27B 27/08 (20060101);