The present invention generally relates to the field of woodworking and more particularly to joinery.
The ability of a craftsperson to form fine joinery such as cabinetry is often the true measure of the person's woodworking skill. Poorly fitting joints may detract from the overall projects aesthetics and functionality, especially for fine cabinetry. Proper fit and assembly often require a high level of skill or a large time commitment on behalf of a novice woodworker. To aid in the process, a woodworker will often employ a jig or form to assist in proper joint formation. Too often these jigs tend to be complex to set-up for use, difficult to understand how adjustments impact the finished workpiece, and lack efficient methods for reestablishing commonly made joinery, such as dovetails, box joints, and mortise and tenon joints. Novice woodworkers may even tend to avoid forming fine joinery, instead selecting a simpler joint such as a butt-joint rather than attempt to implement a complex or non-intuitive jig. Expert woodworkers, in contrast, may become frustrated with the set-up time required for the jig device. The effectiveness of a jig may be judged on the ability of a user to rapidly set the jig for the desired joint in an intuitive manner.
Typical jig devices may lack the ability to form a wide variety of joints. As a result, a woodworker may have to obtain a different device in order to make a desired joint. For example, a user may own a jig for making drawers and an entirely separate jig for aiding in formation of a mortise and tenon joint to assemble a table leg and rail. In addition to the expense, these devices may consume valuable workshop space.
While some devices permit the formation of various types of joinery such as through dovetails, half-blind dovetails of various fixed spacings, and box joints, a user may tend to accept a lesser quality joint due to set-up errors, or be required to conduct test cuts to ensure the desired fit is obtained. For example, if a router bit does not extend sufficiently, below the template, into a workpiece the resultant assembled workpiece, such as two sides of a drawer joined by a half-blind dovetail, may have a loose joint. Correspondingly, if the cutting bit extends too far into the workpiece the joint may be too tight. In either case, remedial action may be required for the pieces forming the assembled workpiece to meet user demands or another set of individual workpieces must be shaped. Other jig alignment issues may also affect the overall fit and finish of the resultant workpiece. Examples include the relative position of a template with respect to the workpiece. For instance, improper alignment of an end of a workpiece with respect to a template may result in a joint which is either loose or too tight.
In additional instances, some existing jigs fail to offer convenient workpiece positioning and securing. For example, when forming half-blind dovetails in a single pass (when both the pins and tails are formed in a single operation) the workpieces are off-set from each other, along the length of the joint, to account for the spacing between pins/tails so that the workpieces align in the desired fashion. To accomplish the foregoing in a ½″ (one-half inch) half-blind dovetail, the workpieces are off-set along their width or a secondary axis of the board by a ½″ (one-half inch) to ensure at least a partial pin is formed on either end of the workpiece or board. Once properly positioned, a workpiece is required to be firmly secured to prevent inadvertent movement during a shaping or cutting operation. Difficulties with some securing devices include the inability of the securing device to effectuate both coarse and fine adjustment in a convenient manner. For example, some securing devices may be difficult for the user to secure while properly positioning the workpiece.
Commonly, joined workpieces are typically secured at right angles to each other. If a non-perpendicular joint is desired, a woodworker may be forced to hand form the joint or purchase/construct a jig for accommodating the desired angle. Typically, such non-standard joints are only attempted by experienced woodworkers who demand devices having full features. For example, a triangular table having three legs connected via a rail adjacent the support surface requires that a mortise and tenon joint be formed with an acute angle. As a result, in order for a jig to be considered for purchase by a skilled woodworker, the jig should offer the capability to form non-standard angular joints.
In addition to the difficulties experienced in setting-up the jig, dust and debris generated by operation of a hand-held router removing material, from the workpiece during shaping operations, may be problematic to remove or tend to get caught between the router sub-base plate and the fingers/template. This may require a user to halt operations to remove the dust and debris away from the working area before recommencing operations. This may slow overall progress and become an annoyance to the woodworker.
Therefore, it would be desirable to provide an apparatus configured for aiding efficient, intuitive joint formation without the drawbacks experienced in the prior art.
Accordingly, the present invention is directed to a jig apparatus for utilization in forming a variety of corresponding interconnecting structures for forming joinery between wooden workpieces.
In an aspect of the invention, a jig apparatus base having an intermediate zone configured to minimize or prevent inadvertent contact between a bit and the base is disclosed. An intermediate zone is constructed in the base to provide a void adjacent a cutting interface of a router bit in a workpiece which is secured to the jig apparatus. Suitable constructions include angled or stepped interfaces between a first side of the base and a second side of the base. Additionally, a recess or void may be constructed in the base between the first and second sides for preventing inadvertent contact.
In an additional aspect of the invention, a template mounting system is discussed. In embodiments, suitable template mounting systems include opposing slotted brackets, included on a template, received by a threaded lock-down knob system. In further embodiments, a mounting bracket includes an elongate rail for receiving a template including an aperture or channel corresponding to the rail. A template mounting system in accordance with the present aspect may permit the utilization of a single template having multiple guides so as to provide increased versatility. The mounting system may allow for adjustable positioning with respect to a jig base having a first side and a second side orthogonally aligned to each other.
In a further aspect of the present invention, a visual alignment system may be included in the jig apparatus for assisting the user in proper alignment of the template with the workpiece/the base. In embodiments, a visual indicia or marker such as a scribed line may be included on a template, to be implemented with the jig apparatus, for providing a visual alignment for an edge of the workpiece/the abutment of workpieces to be shaped.
In another aspect of the present invention, a clamp assembly securing mechanism is disclosed. An exemplary clamp assembly may include a slideable mounting positioned on a threaded rod outwardly extending from the base. A threaded knob may be utilized to secure the mounting along the rod. A lock bar is pivotally coupled to the mounting. The lock bar may be formed or include an eccentric portion or cam portion for securing a workpiece disposed between the base and the lock bar. An engaging plate may be disposed between the lock bar and the workpiece in order to provide even application of force to the workpiece.
In a further aspect of the present invention, an adjustable angle workpiece mounting fence system may be included in the jig apparatus for permitting a user to vary the angular orientation of a workpiece with respect to a template. The main fence portion may be mounted via a pivotal trunnion coupling with spaced apart fence mounting brackets. A sliding auxiliary fence portion may be coupled to the main fence portion so a user may remove the auxiliary fence portion adjacent the template. Furthermore, a securing clamp may be coupled via a groove and rail system to the main fence portion for securing a workpiece to be shaped.
In an additional aspect of the present invention, a router bit positioning system is described. The router bit positioning system may promote efficient positioning of the depth of a router bit, or the extent to which a router bit extends beyond a router base/sub-base. A bit stop may be mounted to the base, an extension included on the template, or a dedicated housing in-line with a slot or recess included in a support surface (e.g., a template). The bit stop may be fixed at a pre-selected depth commonly implemented to offset distance or allow for adjustment such as by utilizing a threaded rod, screw or the like.
In another aspect of the present invention, a variable spacing router collar system may be included for utilization varying the spacing or the distance between an included router bit and a guide or form being traced. A generally cylindrical collar body may be secured to a router base or sub-base via a threaded locking ring engaging threading included on an outer surface of the collar body. A kit or series of outer sleeves and/or collar bodies having differing outside diameters may be attached about a portion of the collar body through a magnetic interaction or an intermediate elastomeric O-ring to effectuate different spacings.
It is to be understood that both the forgoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed. The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate an embodiment of the invention and together with the general description, serve to explain the principles of the invention.
The numerous advantages of the present invention may be better understood by those skilled in the art by reference to the accompanying figures in which:
Reference will now be made in detail to the presently preferred embodiments of the invention, examples of which are illustrated in the accompanying drawings. It is to be appreciated that generally corresponding structures are provided with corresponding reference numbers. Additionally, while the present embodiments are directed generally to an apparatus in which a hand-held router is manipulated with respect to a fixed workpiece, the principles of the present invention may be equally applicable to an apparatus which is implemented with a fixed cutter such as in a router table, and the like devices for woodworking. It is the intention of this disclosure to encompass and include such variation.
Referring to
Referring to
Referring again to
Preferably, the interface between the first 106 and second 108 sides is angled 110 such that the first side and the second side do not meet in a right angle orientation. In further embodiments, such as illustrated in
For example, as may be generally observed in
With continued reference to
In the present embodiment, the base 102 is configured to implement a template 118 having multiple brackets 120 (one is referenced). Utilization of a multiple bracket system may permit reversal of the template or positioning a guide adjacent the first side 106, thereby increasing versatility of the template. For example, as illustrated in
Referring to
In the present embodiment, the position of the template 118 with respect to the second side 108 of the base (e.g., the vertical position as may be observed in
With reference to
Referring to
In the current example, the mounting system 181 includes a template mounting rail 141 included on a template mounting bracket 139. The mounting rail may be unitary with a base mounting 187 or may be secured via fasteners to a base mounting 187. For example, the mounting rail may be aligned generally perpendicular to the first side 106 of the base for front-to-back alignment. The mounting rails may be shaped/disposed so as to minimize and/or eliminate skewing of the template along the mounting rails. The template mounting rail may be configured as a rod or geometrically shaped elongate extension. As may be observed in
With particular reference to
In a further example, the template mounting system 181 may include a mounting stop 199 (one is referenced) or a series of mounting stops (which may be fixed or adjustable) for aiding in positioning of the template along the mounting rail. Those of skill in the art will appreciate an adjustable stop may be mounted to a template for a substantially similar purpose. For instance, an adjustable stop 199 may be included for contacting the template 193, a stop 200 extending from the template 193, or an adjustable stop mounted to the template so as to permit positioning along the mounting rail 141. In this way, a user may set the alignment of a particular guide included on a template and repeatably position the template having the guide to the desired position for a variety of different guides. Adjustable positioning of the template along the mounting rail 141 may accommodate various sized workpieces, permit adjustment of the tightness/looseness of the joint, permit utilization of a sacrificial backer for preventing tear-out, and the like. Preferably, corresponding stops are included on the template mounting brackets 139 disposed at either end of the base. Additionally, a stop may be removable and/or replaceable to allow for the implementation of different router bits. In a further advantageous embodiment, a series of stops, being offset from at different locations from the mounting rail, are included to allow for front-to-back positioning (position along the mounting rail 141) for different guides. In a further example, a stop may be included on the mounting bracket 139 for contacting a corresponding stop 200 on a first side of the template while a second stop is included on the mounting bracket for contacting a second stop 202 disposed on an opposite side of the template. The stops included on the template 193 being disposed at differing locations along a primary length of the template 193. In the foregoing manner, a series of different templates, each having different guides, may have established stops for the included guides. Examples include a stop for through dovetail pins, a stop for through dovetail tails and or half-blind pins/tails, and the like guides. The adjustable stop may be constructed as a threaded rod, a screw, or the like in threaded engagement with a threaded aperture included in the mounting bracket 139. Other securing systems such as a rack and pinion system, a smooth shaft and set-screw, or the like may be implemented as well.
In embodiments of the invention, one or more mounting stops 199 may be operatively coupled to at least one of the base 102, the mounting bracket 139, or the mounting rail 141.
With reference to
An adjustable finger template 204 in accordance with an embodiment includes a first end mounting 220 having a through aperture for reception by a mounting rail 141. A second end mounting 222 may be connected to the first end mounting via a template rail 206 extending between the end mountings. Additional rails may be included for preventing twisting of the template during utilization. A plurality of individual fingers may be slid on the template rail 206 to the desired position. The individual fingers 208, 210 (two are referenced) may be contoured in a variety of shapes based on the joint to be formed. Individual fingers may be secured via a set-screw or the like to fix their respective positions along the template rail 206.
In the present example, a through aperture 224 is included in the individual fingers for permitting passage of a depth stop rod or bar 214 through the fingers. For instance, the depth stop bar 214 may act as a stop for a router guide collar when forming a joint, so the router is prevented from extending inwardly between two adjacent fingers. In the foregoing manner, a user may be prevented from inadvertently removing excess material from the workpieces when forming half-blind dovetails. The depth stop bar 214 may be removed when cutting through dovetails, as the bit is allowed to pass entirely through the workpiece.
When utilized for forming a mortise and tenon joint, a removable support 216 may be attached to the adjustable finger template 204. The removable support 216 may be attached via a rail system in a substantially similar manner as the template mounting system 181. Referring to
Referring to
In the current example, a threaded rod 144, a bolt, or the like extends outward from a portion or side of the base 102 to which the workpiece is to be clamped. The threaded rod or bolt may be secured to the base via a weld, an adhesive, a nut 185, via threaded engagement with a threaded aperture in the base, or the like, to prevent rotation of the rod as the clamp assembly components are manipulated. During utilization, a workpiece 112 such as a wooden board may be sandwiched between a surface of the base 106 and the clamp assembly 140. In the present embodiment, a threaded rod extends from each of the left and right edaes of side 106 of base 102 in order to promote even clamping pressure along the width of the workpiece 112. A mounting block 152 is mounted on the threaded rod 144. In the current embodiment, the mounting block 152 includes a through aperture so that the mounting block may slide along the threaded rod 144. A lock bar 154 is pivotally coupled to the mounting. For example, the lock bar 154 may have a terminal portion which forms a trunnion for which a corresponding aperture or recess is included in the mounting.
In the current embodiment, the lock bar 154 includes an eccentric portion 156 which is secured to the generally cylindrical lock bar 154 via a set screw 166 or the like for fixing the eccentric portions so that manipulation of the lock bar results in securing/releasing of the eccentric portions. Preferably, the eccentric portions are spaced apart to ensure that a proper securing force is applied generally along the length of the lock bar. In a further embodiment, multiple eccentric portions are implemented or cam portions are included. Moreover, the lock bar may have a variety of multi-sided geometric shapes, with a correspondingly shaped aperture in the eccentric or cam portion, so that rotation of the lock bar results in rotation of the eccentric portion. In further embodiments, the lock bar may be shaped/configured as an eccentric or cam or have integrally included eccentric or cam portions. Including separate cam portions may promote efficient manufacture, reduce material cost, and the like. The eccentric portion 156 may be formed of a durable plastic or the like having sufficient rigidity to withstand workpiece clamping pressure.
A workpiece engaging plate 158 may be included for providing substantially even pressure across a workpiece/engaging plate zone. Inclusion of a plate 158 may prevent the eccentric portions 156 from marring or otherwise damaging the workpiece 112 if excessive pressure is applied by the lock bar 154, as well as providing increased surface area. An engaging plate 158 may include surface texturing, a coating, or material, directed toward the surface of the base, for aiding workpiece engagement. In further embodiments, an engaging plate may include edges to form a trough or form a partial enclosure generally about the lock bar 154. Additionally, the lock bar and or the mounting block 152 may be biased away from the base to permit efficient insertion of a workpiece between the base 102 and the securing mechanism. For example, a compression spring 160 may be disposed about the threaded rod 144 between the base 102 and the engaging plate 158 in order to force the engaging plate and lock bar generally away from the base to facilitate workpiece insertion when the clamp assembly 140 is not in an engaged condition.
With continued reference to
Referring to
In particular, when cutting half-blind dovetails in a single pass, or operation, the two workpieces forming the joint are required to be offset from each other so as to align the edges of the workpieces to each other. For example, as may be best observed in
In a preferred embodiment, at least two workpiece stops are included in the jig apparatus 100 such that the workpiece stops may be swapped from left/right (as may be generally observed in
In the current embodiment, a workpiece stop includes a slot 178 extending generally from the aligned side to the off-set side of the stop such that the right/left positioning of the workpiece may be finely adjusted thereby permitting adjustable and repeatable workpiece positioning along the length of the template. A fastener such as a screw 180, in threaded engagement with the base, or other releasable securing device may be utilized for securing the workpiece stop 168. For example, a user may wish to vary the position of the workpiece along the template. In this fashion, a user may select where the edge of the workpiece is located with respect to an extension or finger included on the template. In additional embodiments, portions of the workpiece stop 168 may include a contoured edge such as a half-circle recess to accommodate a threaded rod such as may be included in a template securing system, a clamping assembly, or the like to maximize the area in which a workpiece may be positioned or the size of workpiece which may be accepted.
Referring to
With reference to
As may be best observed in
Additionally, a securing system such as a securing clamp 167 may be included in the mounting fence system 155. In the present embodiment, a series of lockdown clamps are slide mounted to the main fence portion 161. In an example, a lockdown clamp is removable from the main fence portion 161 to accommodate workpieces having dimensions approximately equal to the maximum sized workpiece which may be accepted. Adjustable securing may allow for efficient securing for workpieces having various dimensions without the need for a separate clamping device. For example, the clamps may be coupled via a tabbed extension, a rail portion, or the like for engaging with a lipped groove to permit adjustment along the primary length of the main fence portion 161. Those of skill in the art will appreciate a wide variety of mechanical interconnections may be implemented to permit adjustable workpiece securing. Suitable securing systems may include spring biased clamps, threaded clamps, cam or eccentric clamping system, and the like for securing a workpiece during routing operation.
Referring to
Referring to
Those of skill in the art will appreciate that the selection of mounting surface (e.g., the base, an extension on a template, a separate mounting, or the like) for the bit stop may depend on the type of joint to be formed. For example, in a half-blind dovetail the depth of the pins relative to the sockets may be varied. For example, a user may vary the depth to which material is removed from the two workpieces. This may be best exemplified by the case of a half-blind dovetail in which the pins/sockets are formed in a single operation. Considerations in the foregoing example include, but are not limited to, the ability of the workpiece forming the sockets to hide the joint, the ability to assemble, form a sturdy joint (the ability of the pins to engage the sockets), and the like. The same considerations may apply for various other joints such as a tapered sliding dovetail or a sliding dovetail dado. In this instance, a bit stop may be mounted to the template as the selection of the extensions/sockets may be varied. In contrast, when cutting a through dovetail or a box joint which extends through the workpieces (i.e., is generally observable from two sides) the overall thickness of the workpieces may be taken into account when forming the joint. In consideration of this, an adjustable bit stop 101 for the pin/tails of a through dovetail system may be mounted to the base 102, such that the thickness of the workpieces may be taken into account (due to the spacing of the template away from the base substantially equal to the thickness one of the workpieces (typically the workpiece to include the pins)). For example, the position of the slots in the template and the location of the adjustable bit stop 101 on the base may permit a user to reverse the template such that the fingers or protrusions forming the respective guides (
Referring to
Referring to
In an exemplary method for forming a mortise and tenon joint, a template defining the desired dimensions is configured. A first workpiece which is to be configured with a tongue, or male member, is formed utilizing a router with an attached collar body for following the template. A second workpiece which is to be configured with the mortise or female joint member is formed with a router with an attached collar body having an outer sleeve attached. The first and second workpieces are subsequently interconnected.
Referring to
Referring to
It is believed that the present invention and many of its attendant advantages will be understood by the forgoing description. It is also believed that it will be apparent that various changes may be made in the form, construction and arrangement of the components thereof without departing from the scope and spirit of the invention or without sacrificing all of its material advantages. The form herein before described being merely an explanatory embodiment thereof. It is the intention of the following claims to encompass and include such changes.
The present application claims priority under 35 U.S.C. §119(e) to U.S. Provisional Patent Application Ser. No. 60/592,734, entitled: Jig Apparatus, filed on Jul. 30, 2004, and to U.S. Provisional Patent Application Ser. No. 60/664,053, entitled: Jig Apparatus, filed on Mar. 22, 2005, both of which are hereby incorporated by reference in their entirety.
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