US20190143427A1 - Insert for a table saw - Google Patents

Abstract

A dust collection system designed for a table saw is disclosed. The dust collection system includes a dust shroud and dust shield to channel dust generated by a blade as it cuts wood or other material. The dust shroud includes fins and walls to “peel” dust and air off a spinning blade and direct the dust and air downward. The dust shroud encloses the lower front portion of a blade. An insert with a channel into which a dust shield can extend is disclosed.

Description

CROSS-REFERENCE TO RELATED APPLICATION
• This application is a continuation of U.S. patent application Ser. No. 14/096,689, filed Dec. 4, 2013, which is a continuation of U.S. patent application Ser. No. 12/804,684, filed Jul. 26, 2010, now U.S. Pat. No. 10,022,811, which claims the benefit of and priority from U.S. Provisional Patent Application Ser. No. 61/273,204, filed Jul. 31, 2009. These applications are hereby incorporated by reference.
TECHNICAL FIELD
• The present invention relates to a dust collection system that may be incorporated in a table saw or other piece of power tool equipment.
BACKGROUND
• In a workshop environment, such as a wood-working workshop, dust is routinely generated as a byproduct of operating power tools that perform cutting operations. The quantities of dust that can accumulate in and around the power tools and surrounding workspace can be considerable and it is often necessary to remove the dust to keep the machinery functioning properly and the workspace clear of interference. In addition, dust from wood and many other products commonly processed in a workshop environment have been shown to pose a health risk to those who are exposed to the dust, especially if exposed to the dust on a regular basis. Thus, it is important to limit the dust that can escape into the environment or that can accumulate in the machinery when a dust-generating power tool is in use. Enclosing the base of a power tool in a cabinet helps to trap the dust that falls below the cutting surface but it does not provide a way to keep dust from accumulating in certain interior parts of the tool and removal of the dust can be cumbersome. To address this issue, different kinds of dust collection systems have been developed. A dust collection system provides a way to collect dust generated by a power tool so that it can be contained and removed.
• This document describes a dust collection system designed for a table saw.
BRIEF DESCRIPTION OF THE DRAWINGS
• FIG. 1 shows a table saw.
• FIG. 2 shows the interior mechanism of the table saw ofFIG. 1 equipped with a dust collection system and a table and work piece in cross-section.
• FIG. 3 shows trajectories of dust coming off the blade.
• FIG. 4 shows a dust shroud used in the dust collection system ofFIG. 2.
• FIG. 5 shows another view of the dust shroud ofFIG. 4.
• FIG. 6 shows an exploded view of the dust shroud ofFIG. 4.
• FIG. 7 shows a right side view of the dust shroud ofFIG. 4 relative to the front of the saw.
• FIG. 8 shows a left side view of the dust shroud ofFIG. 4 relative to the front of the saw.
• FIG. 9 shows a front view of the dust shroud ofFIG. 4 relative to the front of the saw.
• FIG. 10 shows a rear view of the dust shroud ofFIG. 4 relative to the front of the saw.
• FIG. 11 shows a top view of the dust shroud ofFIG. 4.
• FIG. 12 shows a bottom view of the dust shroud ofFIG. 4.
• FIG. 13 shows a dust shield used in the dust shroud ofFIG. 4.
• FIG. 14 shows the dust shield ofFIG. 13 seated in the left half of the dust shroud.
• FIG. 15 shows the dust shield ofFIG. 13 seated in the right half of the dust shroud.
• FIG. 16 shows the dust shroud ofFIG. 4 with the dust shield ofFIG. 13 extending up into a channel in a table insert.
• FIG. 17 shows another view of the dust shield ofFIG. 13 extending up into a channel in a table insert.
• FIG. 18 shows a perspective view of the dust shield ofFIG. 13 from the back.
• FIG. 19 shows a front view of the dust shield ofFIG. 13 relative to the front of the saw.
• FIG. 20 shows a perspective view of the dust shield ofFIG. 13 from the right.
• FIG. 21 shows a left side view of the dust shield ofFIG. 13 relative to the front of the saw.
• FIG. 22 shows a right side view of the dust shield ofFIG. 13 relative to the front of the saw.
• FIG. 23 shows a perspective view of the dust shield ofFIG. 13 which shows the bottom edge.
• FIG. 24 shows a bottom view of the dust shield ofFIG. 13.
• FIG. 25 shows the blade seated in a lowered position in the left half of the dust shroud.
• FIG. 26 shows a rear view of the blade seated in a lowered position in the dust shroud.
• FIG. 27 shows the flow of air through the left half of the dust shroud ofFIG. 4.
• FIG. 28 shows the flow of air through the right half of the dust shroud ofFIG. 4.
DETAILED DESCRIPTION
• Asaw10 with acabinet base12 is shown inFIG. 1.Saw10 includes a table14 and acircular blade16 that extends up through aslot18 in a table insert20 that fits within an opening in the table. Theslot18 has a forward-mostend63. A piece of wood, or other material to be cut, is placed on the table and pushed into contact with the spinning blade to make a cut. Saw10 is a type of saw called a cabinet saw. A cabinet saw typically includes an enclosed casing or cabinet which houses the motor and other parts underneath the table and forms the base of the saw.
• FIG. 2 shows an interior mechanism of saw10 designed to raise, lower andtilt blade16 relative to table14, with awork piece22 on the table (the work piece and table are shown in cross-sectional view along a line adjacent the blade). The front of the saw and table is to the left inFIG. 2.Blade16 is shown mounted on arotatable arbor17 driven by amotor19 and supported by the interior mechanism. The interior mechanism is also equipped with adust collection system24. The dust collection system catches and channels dust generated by the blade as it cuts wood or other materials so that the dust can be captured and removed.
• In a table saw,blade16 rotates in the direction ofarrow26 so that the teeth of the blade emerge from the table at the right ofFIG. 2, contact and cut a work piece on the table, and then move beneath the table at the left ofFIG. 2.Blade16 may rotate at 3,000 to 4,000 revolutions per minute, so the spinning blade creates an airflow pattern and moves air and dust particles near the blade generally along lines tangent to the direction the teeth are moving at any given instant, as shown byarrows28 and30 inFIG. 3. Typically, the teeth onblade16 cut the work piece and create dust as the teeth move down from the highest point of the blade toward the table. Dust created by the teeth at the front of the blade typically moves down with the teeth, generally in the direction ofarrow30 inFIG. 3. The work piece itself and the table top help direct the dust and airflow downward by surrounding the blade.Dust collection system24 partially surrounds a front portion of the blade and is designed to capture dust particles as they are directed downward by the blade.
• A main component ofdust collection system24 isdust shroud32 shown inFIGS. 4 through 6. The dust shroud is positioned and shaped to catch dust coming off the blade and direct the dust downward where it can be collected by a vacuum system.Dust shroud32 is composed of two halves, aright half34 and aleft half36. In the depicted embodiment, the two halves are molded from plastic. The two halves fit together by tongue and groove edges38 that run along the edges of each half. The tongue and groove form a tight seal between the two halves and help prevent dust from escaping the dust shroud. The tongue and groove also help with the alignment of the two halves in the assembly process. When joined, the tongue andgroove form ridges40 along the outside surface of the dust shroud and those ridges are interrupted by severalnon-threaded screw bosses42. Self-threadingscrews44 are threaded into the bosses to secure the two halves. In the depicted embodiment, two screws secure the upper and middle front edge and one screw secures the middle rear edge of the dust shroud. A fourth screw passes through a non-threadedsunken boss46 generally in the center of theright half34.Boss46 extends into the interior of the dust shroud and includes a portion extending inward fromleft half36. In the depicted embodiment, the two halves are also held together with twoclips48, as shown inFIG. 6.Clips48 snap over or crimp aroundridges40 at the bottom of the dust shroud.Ridges40 may includegrooves50 to accommodate the clips. Clips are used at these locations instead of screws because bosses for screws would not be in line with the direction at which the part is drawn from the mold. Other fasteners besides screws and clips could also be used.
• Various views ofdust shroud32 are shown inFIGS. 7 through 12. As shown inFIG. 7, the upper right edge of the right half ofdust shroud32 has a somewhatparabolic edge52. That edge is mirrored on the left half along the upper left edge looking from the left, as shown inFIG. 8. From the front and rear, as shown inFIGS. 9 and 10,dust shroud32 is generally narrow with a verticalupper section54 and abend56 towards the bottom. As shown inFIG. 11,dust shroud32 is open at the top and thisupper opening58 continues down alongparabolic edge52. As shown inFIG. 12, the bottom of the dust shroud also includes anopening60.
• Dust shroud32 mounts in the saw by four screws that fit into fourbosses62 located towards the lower middle ofleft half36, shown inFIG. 5. Screws pass from a predetermined part of the internal mechanism of the saw into the screw bosses to hold the dust shroud in place. For example, a bracket may be designed in the internal mechanism to position and hold the dust shroud in place.
• Another important component ofdust collection system24 isdust shield64, shown withdust shroud32 inFIGS. 4-6 and shown isolated inFIG. 13.Dust shield64 is a metal piece positioned at the front and top ofdust shroud32. The dust shield may be the first part of the dust collection system that dust particles moving off the blade encounter.Dust shield64 is made of metal or some other hard material because the dust from certain kinds of materials can be very abrasive and wear through plastic or other soft materials.Dust shield64 fits vertically along the inner front wall ofdust shroud32 and protrudes above the top of the dust shroud, as seen in at leastFIG. 9. The dust shield rests on the bottom legs of L-shapedribs66 that are molded into each dust shroud half, as shown inFIGS. 14 and 15. The L-shaped ribs extend upwards along the sides of the dust shield and these, along with avertical rib68 located at the top of the left half of the dust shroud, define the area within which the dust shield is positioned. To prevent the dust shield from moving vertically upwards,rounded notches70, one cut along the edge of each side of the dust shield, fit aroundsemi-circular protrusions72 that are molded along the L-shapedrib66 on one side of the dust shield and alongvertical rib68 on the other side of the dust shield. The dust shield is somewhat dished or cupped in shape because it includes sides and a top that are curved or bent over to form a generally recessed area or concavity to help catch and direct dust intodust shroud32. The bottom edge of the dust shield, however, is open; it is not bent or curved to form a wall because that would impede the flow of dust intodust shroud32.
• As seen inFIG. 2,dust shroud32 anddust shield64 are positioned below the upper surface of table14 at the front of the blade so that the dust shroud partially encloses the forward portion of the blade. In that position, dust coming off the front of the blade is caught by the dust shield and dust shroud, especially when the blade is raised above the table a sufficient distance so that the movement of the teeth at the front of the blade is generally downward toward the table. However, when the blade is lowered so that less of the blade extends above the table, the movement of the teeth above the table is more horizontal relative to the table top and the dust coming off the blade typically moves in more of a horizontal direction toward the front of the saw rather than down into the dust shroud. If there is a gap between the top of the dust shroud and the underside of the table or table insert, then dust would move through the gap and escape.
• To catch dust shooting off at a more horizontal angle, the top ofdust shield64 is designed to protrude up into a groove orchannel74 cut into the underside oftable insert20, as shown inFIGS. 16 and 17.Table insert20 has afront edge65 and arear region67. In this manner,dust shield64 and the underside oftable insert20 overlap so there is no gap between the top of the dust shield and the plane of the underside of table14.
• The blade in a table saw is allowed to tilt between 90 and 45 degrees relative to the table top in order to make miter or angled cuts. As shown inFIGS. 18 and 19,dust shield64 has a short horizontaltop portion76 and then asloped section78 that slopes downward at 45 degrees. When the blade is at 90 degrees relative to the table top, the horizontaltop portion76 of the dust shield protrudes up intochannel74 in the underside oftable insert20. As the blade is tilted from 90 degrees, the dust collection system tilts as well. When the blade is tilted to 45 degrees, slopedsection78 becomes generally parallel to the bottom of table14 and protrudes up intochannel74 to maintain the overlap with the underside of the table insert.Channel74 is sized and shaped to allow the dust shield to tilt with the blade and still maintain the overlap.
• Both the horizontal top portion and sloped section of the dust shield are cupped in such a way that the rounded corners evolve into a surface orwall80 that extends back toward the blade, as shown inFIG. 21.Surface80 provides what may be thought of as a shingling effect withchannel74 to help prevent dust from moving past the dust shield. Without the shingling effect, more dust particles might escape at the junction between the dust shield and the table insert even though the dust shield and table insert overlap. As the dust and airflow from the blade strike the dust shield, the dust and air may bounce back toward the blade and create turbulence, causing some dust to escape.Surface80 and the bowl-shaped cupping of the dust shield help prevent dust from moving past the dust shield and help direct the dust and air so that it bounces back into the downward flow of air off the blade and into the dust shroud.
• The cupping shape of the dust shield is different on the right and left sides. The side wall along the left side of the dust shield extends roughly normal from the front of the dust shield, and the side wall is created with asharp bend82 neartop portion76. However, bend82 changes into a lesssharp curve84 at the bottom of the dust shield, as shown inFIGS. 18, 20, 23 and 24. A sharp bend near the top, such asbend82, better directs dust back toward the downward airflow created by the blade, especially given that the top of the side wall is above the dust shroud. A less sharp curve at the bottom, such ascurve84, can be used to match the inside curve of the dust shroud because the dust shroud itself covers the side wall and blocks dust.
• The side wall along the right side of the dust shield is created from a more uniform sharp or squaredbend86 along the entire length of the side. It was found experimentally that a sharper, squarer bend works better along the right side of the dust shield. It is believed a squarer bend works better along the right side of the dust shield because the front and right half ofdust shroud32 do not extend vertically as high as the left half, leaving anopen area88 on the upper right side of the dust shroud, as seen inFIG. 17, through which dust particles can escape. (The front and right half of the dust shroud do not extend as high as the left half in order to provide clearance for the dust shroud to tilt with the blade; without that clearance the dust shroud would run into the underside of the table when the blade tilts.) A less sharp curve would allow more dust to escape over the top of the dust shroud throughopening88. This is particularly true when the blade is lowered and the dust hits the dust shield at a more horizontal angle. Thesharp bend86 of the dust shield blocks the dust better than a less sharp bend. Additionally,sharp bend86 allows for more clearance to remove the blade off the arbor while maintaining the dust shroud as narrow as possible when viewing the dust shroud from the front of the saw.
• The right and left side walls ofdust shield64 also change from a narrow profile at the top of the dust shield to a larger dimension as the walls extend downward. Specifically, the left side wall is shown inFIG. 21 to include atransition region90 where the side wall becomes larger. Similarly,FIG. 22 shows atransition region92 where the right side wall becomes larger. Generally, larger side walls are better to block dust; however, the top of the dust shield includes smaller side walls to better fit intochannel74 in the table insert.Channel74 would have to be larger to accommodate bigger side walls, and a bigger channel could interfere with the blade or the slot in the table insert through which the blade passes. Accordingly, the depicted embodiment includes side walls that increase in size as they extend down.
• Air and dust particles that hitdust shield64 are redirected downward into thedust shroud32. Like the dust shield, the dust shroud is also squared in the corner along the side of and just below opening88 as shown at94 inFIG. 15. This redirects dust downward that would otherwise follow the curvature of a curved corner and escape throughopening88.
• Dust shroud32 has two channels in its interior, a front orprimary channel96 and a rear orsecondary channel98. The two channels are partially separated by a barrier formed by alower fin100 and aside fin102, as shown inFIGS. 14 and 15. When the dust shroud is positioned in the saw,blade16 is abovelower fin100 and to the right ofside fin102 when looking at the blade from the front of the saw. The front channel catches fast moving air from the blade, and the lower and side fins “peel” or direct the air and dust particles off the rotating blade as it passes by because of their proximity to the blade.
• Side fin102 consists of a wall-like projection that is perpendicular to and runs generally vertically along the inner wall of the left half of the dust shroud, as best seen inFIGS. 6 and 27. The side fin extends from the dust shroud towards the blade and fills in the area between the blade and the dust shroud along the length of the blade leaving only asmall gap104 between it and the blade, as shown inFIG. 26. Generally,side fin102 should be as close to the blade as possible and generally within 2 to 10 millimeters from the side of the blade.Side fin102 is long enough to run along the blade when the blade is in both its raised and lowered positions. A side fin could extend from the right half of the dust shroud as well so that the blade is surrounded on both sides, as indicated by dashedline103 inFIG. 15. The additional side fin could be configured likefin102, but typically would have a larger side-to-side dimension in order to be closer to the blade to peel dust and air from the blade. The additional side fin also could be configured as a removable fin so that it could be removed when necessary, such as to accommodate thicker blade stacks, such as dado stacks, and/or blade removal. In the depicted embodiment, no side fin extends from the right half of the dust shroud in order to leave room for thicker blade sets and to facilitate blade removal.
• Lower fin100 is a relatively short and generally vertically oriented wall located in the lower part ofdust shroud32. The lower fin is situated below the perimeter of the blade where it is most effective in peeling air and dust particles off the rotating blade, andlower fin100 is closest to the blade when the blade is lowered so that only asmall gap108 is left between the lower fin and the teeth of the blade, as shown inFIG. 25. As with the side fin, the lower fin should be as close to the perimeter of the blade as possible when the blade is fully lowered and generally within 5 to 15 millimeters from the edge of the blade.Lower fin100 extends across the dust shroud from one side to the other, thereby separating the front and rear channels within the dust shroud, as shown inFIGS. 14 and 15. As seen inFIGS. 14, 15, 27 and 28,lower fin100 has slantedsurfaces106, one at the top and another at the bottom. Those surfaces provide rigidity and strength tolower fin100, and surfaces106 slope downward so that dust does not collect on them. In forming the front channel, the side and lower fins may be thought of as constricting the airway at least partially so that the air coming off the blade may increase in speed through a venturi effect. In any event, by peeling the fast moving air off the blade and directing it downwards the fins help create a powerfully blowing airstream that passes through and out the lower part of the dust shroud.
• Rear orsecondary channel98 provides an additional or second layer of dust removal capability. The fast moving air channeled through the front channel, as shown byarrow110 inFIGS. 27 and 28, creates aregion112 of low pressure in front oflower fin100 relative to the region in the rear channel behind the lower fin. Consequently, air and dust within the rear channel is drawn into the stream of fast moving air in the front channel, especially as the air in the front channel passeslower fin100, as shown byarrow114 inFIGS. 27 and 28.
• Some air and dust from the blade will follow the movement of the blade and move horizontally into contact withlower fin100. The lower fin will block that air and direct it downward. This is part of what was referred to previously as “peeling” air off the blade. As that horizontal airstream hits thelower fin100, a local eddy orlow pressure region116 forms on the upper backside of the lower fin and that eddy can catch dust moving past the fin. The dust caught by the eddy eventually falls downward and is drawn into the stream of fast moving air in the front channel. Experiments have shown that the front surface oflower fin100 should be positioned substantially vertical in order to maximize this effect, or in other words, generally perpendicular to the horizontal airstream, as shown inFIGS. 11, 27 and 28. Additional fins may be positioned within the air channels to create additional eddies or to further direct air and dust downward.
• The rear channel also has rear walls and a bottom flange to peel the air and dust particles off the blade as the blade exits the dust shroud. As shown inFIGS. 11, 14 and 26, a left rear wall118 (left with respect to the front of the saw) extends toward the blade from theleft half36 of the dust shroud. Leftrear wall118 slopes downward and is perpendicular to the blade, leaving only asmall gap120 between it and the blade. The left rear wall should be as close to the side of the blade as possible and generally within 2 to 10 millimeters from the side of the blade. Similarly, a rightrear wall122, shown inFIGS. 11, 15 and 26, extends toward the blade fromright half34 of the dust shroud and is as close to the blade as practical, generally within 2 to 10 millimeters. The right rear wall does not extend up the dust shroud as far as the left rear wall in order to provide clearance for a stack of smaller diameter blades, such as an 8 inch diameter dado set. The left and right rear walls create what may be thought of as a slot through which the teeth on the blade may emerge from the dust shroud. Abottom flange124 also extends from the left half of the dust shroud adjacent and just below where the edge of the blade exits the dust shroud, as shown inFIGS. 11, 14, 25 and 26. Only asmall gap126 is left betweenbottom flange124 and the edge of the blade, generally on the order of 5 to 15 millimeters from the perimeter of the blade.
• The dust shroud is sized from front-to-back to be sufficient to catch dust, but experiments have shown that little is gained if the dust shroud were to extend substantially beyond the front lower portion or lower front quadrant of the blade. Extending the dust shroud rearwardly beyond the center or midpoint of the blade (or beyond the arbor) to substantially cover the lower rear quadrant of the blade is not necessary because the disclosed dust shroud is able to “peel” air and dust off the blade. Covering the blade only partially allows for a more compact dust shroud, thereby permitting more easy access to the blade and other parts of the saw near the blade. Also, the side-to-side width of the dust shroud is set wide enough to accommodate a set of dado blades and effectively catch dust by trapping and channeling the air near the side surfaces of the blade or dado set while not interfering with other parts of the saw.
• The main body of the dust shroud sits vertically in the saw, although in the embodiment shown the dust shroud includes abend56 towards its lower end. The bend allows the dust shroud to fit around other parts that may be in a saw, but is not otherwise necessary.
• As shown inFIG. 5, the lower portion of the dust shroud includes anopening60 through which the dust and air exits the dust shroud.Opening60 may also be referred to as an exit port. As shown inFIG. 2, opening60 is positioned substantially if not completely between the front of the saw and the blade center, and not rearward of the rear or back edge of the blade. The position of opening60 allows the downward airflow in the shroud to easily exit the shroud.Opening60 is bounded by aflange128 and a flexible hose can be positioned over the flange to connect the dust shroud with a vacuum port in the saw cabinet. A user may then connect a vacuum system to the vacuum port to collect dust captured by the dust shroud and dust shield.
INDUSTRIAL APPLICABILITY
• The dust collection system disclosed herein is applicable to dust-generating woodworking power tool equipment, and particularly to table saws. The described dust collection system provides a simple and effective means for channeling dust within the table saw so that the dust can be captured and later removed.
• It is believed that the disclosure set forth above encompasses multiple distinct inventions with independent utility. While each of these inventions has been disclosed in its preferred form, the specific embodiments thereof as disclosed and illustrated herein are not to be considered in a limiting sense as numerous variations are possible. The subject matter of the inventions includes all novel and non-obvious combinations and sub-combinations of the various elements, features, functions and/or properties disclosed herein. No single feature, function, element or property of the disclosed embodiments is essential to all of the disclosed inventions.
• It is believed that the following claims particularly point out certain combinations and sub-combinations that are directed to one of the disclosed inventions and are novel and non-obvious. Inventions embodied in other combinations and sub-combinations of features, functions, elements and/or properties may be claimed through amendment of the present claims or presentation of new claims in this or a related application. Such amended or new claims, whether they are directed to a different invention or directed to the same invention, whether different, broader, narrower or equal in scope to the original claims, are also regarded as included within the subject matter of the inventions of the present disclosure.

Claims (3)

1. An insert for use with a table saw having a blade and a dust shield, the insert comprising:

a main body having a front edge, a rear region, an upper surface, an underside, and a slot through which the blade can extend, where the slot has a width and a length, where the length of the slot is greater than the width, and where the slot divides the main body into first and second sides; and

a channel in the underside of the main body into which the dust shield can extend when the insert is installed in the table saw so that the dust shield can overlap with the main body, where the channel extends continuously across the underside of the main body from the first side to the second side, and where the channel is positioned between the front edge and the slot so that the channel does not intersect with the slot.

2. The insert ofclaim 1, where the insert is for use with a table saw having a blade and a dust shield that tilt, and where the channel is sized and shaped to allow the dust shield to tilt with the blade and still overlap with the main body.

3. The insert ofclaim 1, where the channel is elongate.

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