Brad Holden, Author at Woodworking | Blog | Videos | Plans | How To https://www.woodworkersjournal.com/author/bholden/ America's Leading Woodworking Authority Mon, 26 Feb 2024 20:35:17 +0000 en-US hourly 1 https://wordpress.org/?v=6.0.7 New Tool Overview: Porter-Cable Restorer https://www.woodworkersjournal.com/new-tool-overview-porter-cable-restorer/ Thu, 02 Mar 2017 17:18:03 +0000 http://rocklerwj.wpengine.com/?p=36197 If you need to remove old or damaged layers from wood, metal, or concrete surfaces, then you might be interested in taking a closer look at the new Porter Cable Restorer in action.

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If you need to remove old or damaged layers from wood, metal, or concrete surfaces, then you might be interested in taking a closer look at the new Porter Cable Restorer in action. The Restorer is a portable drum sanding tool that is designed to remove the surface layer from wood, metal, or concrete. There are several different abrasive wheels or sleeves that can be used with the Restorer, depending on the type of material you are removing.

The Restorer Kit (PXRA2676KIT) includes a Restorer tool, carry bag, six sanding sleeves, two abrasive sleeves, and 1 rust and paint removal wheel.

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Table Saw Crosscut Jig Tip https://www.woodworkersjournal.com/table-saw-crosscut-jig-tip/ Thu, 22 Dec 2016 19:26:17 +0000 http://rocklerwj.wpengine.com/?p=35069 Learn how to use two miter gauges to create a crosscut jig for making miter cuts or crosscuts.

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Learn how to use two miter gauges to create a crosscut jig for making miter cuts or crosscuts. Two miter gauges are attached to a sturdy fence to make a simple crosscut sled.

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Project Plan: Making a Classic Five-board Step Stool https://www.woodworkersjournal.com/making-classic-five-board-step-stool-project-plan/ Wed, 21 Dec 2016 15:25:03 +0000 http://rocklerwj.wpengine.com/?p=34999 Take a piece of home center lumber, saw it into five boards, spend a bit of shop time, and you’ve got a useful addition to your home.

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Houses aren’t really scaled practically for small children; countertops, sinks and cabinets are just too high for them to use comfortably. Fortunately, you can remedy the problem in an afternoon. A simple, classic step stool like this one is just right for putting everything within reach of the little ones. It’s even sturdy enough for an adult needing a few more inches to reach those top cupboard shelves. If you’re a long-time subscriber to Woodworker’s Journal, you may recall an “8th grade Step Stool” project from our March/April 2005 print issue that has inspired this new incarnation — some simple and classic designs deserve the occasional reprise.

One Board is All You Need

After cutting the 8° angles at the top and bottom of each leg, make the shoulder cuts for the stretcher notches. These also are angled at 8° to match the top and bottom edges of the legs.
After cutting the 8° angles at the top and bottom of each leg, make the shoulder cuts for the stretcher notches. These also are angled at 8° to match the top and bottom edges of the legs.

You can build this stool from a single 1×10, but if you’re using #2 pine from the home center, like I did, I’ll suggest spending the extra three dollars for an 8-ft.-long 1×12 instead. Even when you pick the best one of the pile, you’ll still need to do a little squaring, straightening and cutting around knots. If it turns out your board is nice enough, you can make two step stools: one for the house, and one for the shop!

First, taking the knots into account, crosscut three pieces to rough length: one at 16″, one at 18″ and one at 20″. These will be the stretchers, top, and legs, respectively. Joint and square up the long edges before cutting these parts to their final dimensions. When you rip them to width, leave them about 1/32″ oversize, so you can sand or plane off any saw marks. Cut the top to final length at this time, and crosscut the legs to 10″. With the table saw blade tilted to 8˚, crosscut the top and bottom of the legs parallel and to a finished length of 9″. In addition to adding some style, angling the legs gives the stool extra stability.

Mark a vertical centerline on the legs. On the top of each leg, measure 3″ out from either side of the centerline, giving you 6″ between the stretcher notches. To make the shoulder cut for these notches, I used my table saw with two miter gauges connected by a sturdy fence, angled 8˚ to match the angle at the top and bottom of the legs.

Make the stretcher notch cheek cuts on the table saw by clamping a stop block to the fence, so you don’t cut too far and into the angled shoulders. Finish these cuts with a hand saw.
Make the stretcher notch cheek cuts on the table saw by clamping a stop block to the fence, so you don’t cut too far and into the angled shoulders. Finish these cuts with a hand saw.

Now, to make the cheek cut for the stretcher notches, you’ll need to use two rip fence settings, so you can make a cut along both faces of each notch. You’ll make two cuts for each notch, eight total cuts. Once you’ve set the fence for the first cut, rip just a little ways at a time, checking the underside of the board after each cut. When you reach the shoulder cut, turn off the saw and clamp a stop block to your rip fence at that stopping point. Make the four cuts possible with this fence setting. Change the fence setting, flip each notch over to cut its other face, and you’ll come close to cutting the entire joint. Finish cutting the notches by hand to remove the remaining waste.

Drill a 1/2”-diameter hole on the centerline of each leg, 2 1⁄2” up from the bottom edge, to create the rounded top corner of this cutout.
Drill a 1/2”-diameter hole on the centerline of each leg, 2-1⁄2” up from the bottom edge, to create the rounded top corner of this cutout.

Next, you’ll give each leg a pair of feet. Start by drilling a 1/2″-diameter hole on the centerline 2-1⁄2″ up from the bottom. Make a mark along the bottom edge of each leg 2-1⁄2″ away from either side of the centerline, and connect these marks to the 1/2″ hole.

Once the legs are cut to final shape, use a block plane or sanding block to clean off any saw marks that remain.
Once the legs are cut to final shape, use a block plane or sanding block to clean off any saw marks that remain.

Cut along the layout lines using a band saw or jigsaw. To finish off the leg shapes, cut their angled sides and use a block plane or sanding block as needed, to remove any saw marks.

Bandsawing Legs

Cutting the legs to shape requires making several angled rip cuts.

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The simplest machine for this job is the band saw. Make the cuts by eye, following your layout lines.

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If you don’t have access to a band saw, a handheld jigsaw will work fine, too.

Making the Stretchers

Rip the two stretchers from the remaining board that you cut earlier. Cut the stretchers’ angled ends at 22-1⁄2°. Now mill the 8˚ dadoes using a dado blade in your table saw. Be careful that these dadoes are angled correctly, relative to the angled ends of the stretchers. The correct direction is to have them angled opposite to, not parallel with, the angled ends of these parts.

Cutting Angled Dadoes

The stretchers receive two dadoes each to fit the legs. They’re angled across the width of the stretchers at 8°. When you mill them, two miter gauges attached to a sturdy fence make a safe and stable backup support for cutting dadoes across long workpieces.

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Be picky about sizing these dadoes to the right width — too narrow and the legs won’t fit them; too wide and the fit will be sloppy, which defeats the purpose of the dadoes in the first place. Aim for a good, snug joint connection.

Assembling the Stool

If you’re going for a two-color scheme like the author did, paint the parts, then attach the stretchers to the legs using glue and either nails or counterbored wood screws.
If you’re going for a two-color scheme like the author did, paint the parts, then attach the stretchers to the legs using glue and either nails or counterbored wood screws.

With all the cutting done, go ahead and apply any edge treatment you like. I routed a chamfer around the top board and a 1/8″ roundover on everything else.

Drive pairs of 2" screws through the stretchers to attach the top. Counterbore these screw holes as well.
Drive pairs of 2″ screws through the stretchers to attach the top. Counterbore these screw holes as well.

You can assemble this stool using just glue or glue and finish nails. However, for maximum strength, I recommend going with glue and wood screws. If you plan to paint your stool in several colors like I’ve done here, do that now on all surfaces that won’t need glue, while the parts are still fully accessible. (If you decide on a clear coat like varnish instead, that can wait until the very end.) Proceed with the assembly by attaching the stretchers to the legs. I counterbored all of the screw holes to set their heads below the surface. Now place the leg assembly upside down on the bottom face of the top board, center it, and drive screws through the stretchers to attach them to the top.

Then hide the screw heads under mushroom plugs (inset) or wood plugs cut flush.
Then hide the screw heads under mushroom plugs (inset) or wood plugs cut flush.

I covered the screw heads with decorative mushroom buttons. While they usually fit tightly in counterbored holes so as not to require glue, it’s a good safety precaution anyway: loose buttons could end up in inquisitive little ones’ mouths, ears or noses by mistake.

With the screws capped, your stool project is ready to make step-up tasks easier for just about everyone.

Click Here to download a PDF of the related drawings and Materials List.

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Tip for Making Angled Band Saw Cuts https://www.woodworkersjournal.com/tip-making-angled-band-saw-cuts/ Mon, 19 Dec 2016 18:07:23 +0000 http://rocklerwj.wpengine.com/?p=34930 When making interior cuts that will be more difficult to clean up, take your time and cut as close to the layout line as you can.

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When making interior cuts that will be more difficult to clean up, take your time and cut as close to the layout line as you can.

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Building a Backyard Beehive https://www.woodworkersjournal.com/building-backyard-beehive/ Wed, 06 Jul 2016 23:56:11 +0000 http://rocklerwj.wpengine.com/?p=31519 This project will help give honeybees a fighting chance, while honing your woodworking power tool skills.

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Do your part to help the dwindling honeybee population, harvest honey in your own backyard and get some woodworking in to boot. While making this working beehive, you’ll learn how to make your own tapered lap-siding and polish up your general angle-cutting skills. For detailed instructions on the setup and use of your hive, visit backyardhive.com.

BackYardHive’s Mission

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We at the Woodworker’s Journal are pleased and honored to be working with BackYardHive. We support their efforts to help better the bee and pollinator situation. Below, in their own words, is what they are all about (from their website): “Our primary focus is on improving bee ecology and beekeeping methods that respect the honeybee.

Quite unlike other square beehive styles, this version features hanging crossbars to make the honeycombs easy to remove. A viewing window allows you to track the bees’ progress and health, year-round.
Quite unlike other square beehive styles, this version features hanging crossbars to make the honeycombs easy to remove. A viewing window allows you to track the bees’ progress and health, year-round.

Our hope is that by introducing new hobby beekeepers to the rewards of beekeeping there will eventually be backyard beekeepers worldwide who will help bring back the feral bee population and improve the genetic diversity of the honeybees. This diversity is critically important to the survival of this most precious natural resource. Thank you for being a part of the solution and being a part of the growing community of backyard beekeepers we are helping to create at BackYardHive.com.”

Get Your Beekeeping Supplies

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Once you’ve built your beehive and found a good location to place it, you are going to need some supplies — for example, some bees.

We recommend our partner in this project, BackYardHive.com, as a great place to get the stuff you need to put this project into production. They have informational online material that can get you started as well as a nicely produced DVD that walks you through the process. They have supplies for sale and even an online place to ask questions. Here is a short list of “must-haves” our partners recommend:

How-to DVD — demonstrates how to care for bees in your backyard

The Original Hive Tool — key to working the hive, loosening the combs for harvesting

Herding Tool — helps to gently move the bees off the comb without using smoke

Natural Beeswax — used to coat the bars; this encourages the bees to align their combs on the bars

Building the Box

Start the project by laying out and cutting the two hive ends (pieces 1) to shape. Then use one of these workpieces to set your table saw’s blade tilt angle for trimming the top and bottom edges of the hive sides (pieces 2), which also cuts them to width. Then cut the sides to final length. Now chuck a rabbeting bit in your router and rout a 1/2″ x 3/4″ rabbet on each end.

Use one of the hive ends as a guide to set your table saw’s blade angle.
Use one of the hive ends as a guide to set your table saw’s blade angle.

This hive has a viewing window in one of the sides. You can make the window opening’s long cuts on the table saw, carefully raising the blade through the stock at the starting point and then ripping to the stopping point.

Tthen as a reference for marking the hive side pieces before cutting them to final width.
Then as a reference for marking the hive side pieces before cutting them to final width.

Then make the short end cuts with a jigsaw. Or make all four cuts with a jigsaw, if you prefer. Finish it by routing a 1/8″ x 3/8″ rabbet around the inside edge for a glass recess.

Rout a 1/8" x 3/8" rabbet around the inside edge of the window opening to serve as a recess for glass.
Rout a 1/8″ x 3/8″ rabbet around the inside edge of the window opening to serve as a recess for glass.

With that done, trim 1/2″ off of the bottom of one of the hive ends: this gap will be the bees’ entrance. Go ahead and assemble the sides and ends with waterproof glue and stainless steel screws.

Set the hive on the bottom panel, and trace the inside shape
Set the hive on the bottom panel, and trace the inside shape

Next, cut the bottom panel (piece 3) to size and set the hive assembly on it. Trace around the inside. Use this outline as a guide to pre-drill angled pilot holes for attaching the bottom panel to the sides and ends.

Then determine the drilling angle you’ll need for boring pilot holes for the screws
Then determine the drilling angle you’ll need for boring pilot holes for the screws.

If you’d like to round over or chamfer any part of the hive up to this point, now is the time to do it, before attaching the bottom. Then go ahead and install it on the hive with glue and screws.

A sliding bevel gauge makes a handy reference for guiding your drill as you bore countersunk pilot holes for the bottom panel screws.
A sliding bevel gauge makes a handy reference for guiding your drill as you bore countersunk pilot holes for the bottom panel screws.

The end handles, window trim and feet (pieces 4 through 6) come next. Cut them to shape, mitering the ends of the handles, and fasten them all to the hive.

Once you’ve glued and clamped the window trim in place (above), you’ll have enough edge surface to cut and fasten the piano hinge (right) for hanging the window cover.
Once you’ve glued and clamped the window trim in place, you’ll have enough edge surface to cut and fasten the piano hinge for hanging the window cover.

You can also rip and crosscut the window cover (piece 7). Round over and rabbet its ends and top edge, leaving the bottom edge flat for attaching the hinge.

Given the cramped workspace here, leave the window glass off until the cover is attached.
Given the cramped workspace here, leave the window glass off until the cover is attached.

After you’ve cut the hinge (piece 11) to length, fasten it in the window opening, and attach the cover. Make and install the latch block (piece 8) above the window opening, and screw the latch (piece 9) to the window cover. Wrap up by setting the glass (piece 10) into its rabbet with a bead of silicone caulk.

Assembling the Hive’s Lid

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The lid comes next: it fits over the hive and rests on the handles to protect the inner compartment and combs.

Assemble the lid frame and corner blocks with glue, screws and clamps. These blocks fit around the hive handles so the lid rests flat.
Assemble the lid frame and corner blocks with glue, screws and clamps. These blocks fit around the hive handles so the lid rests flat.

Cut the lid frame sides and ends (pieces 12 and 13) to size, and rabbet the ends of the side pieces.

Cut the lid panel to size, then glue it into the rabbets in the frame assembly. The author used pin nails as fasteners.
Cut the lid panel to size, then glue it into the rabbets in the frame assembly. The author used pin nails as fasteners.

Notice in the Drawings that the lid (piece 14) fits down into a top rabbet in the frame.

Seal any gaps around the lid frame and panel with a thick bead silicone caulk, for added insurance against leaks or insect pests.
Seal any gaps around the lid frame and panel with a thick bead silicone caulk, for added insurance against leaks or insect pests.

Rout that 1/4″ x 3/8″ rabbet along the top edge of the four frame pieces, before assembling them with glue, screws and corner blocks (pieces 15). Now bed the lid panel into its rabbet with silicone caulk.

Making the Roof

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The hive’s roof covers the lid and creates a seasonal thermal barrier, plus weatherproofing.

Start the roof lap-siding by making a tilted resaw cut at the band saw to form two siding pieces
Start the roof lap-siding by making a tilted resaw cut at the band saw to form two siding pieces.

I decided to style my roof with some resawn lap-siding (pieces 16) to add a “homey” touch. To make it, start with 3″-wide by 3/4″-thick stock.

Trim the bottom edges at the table saw to square them up again, then rabbet them to form lap joints with a dado blade tipped to 85˚.
Trim the bottom edges at the table saw to square them up again, then rabbet them to form lap joints with a dado blade tipped to 85˚.

With your band saw’s table tilted 5°, resaw the stock, making two almost equal halves. Doing this can be difficult, so set your fence to saw the offcut about 1/32″ thicker. After cutting the first piece, run the offcut through, so it will end up exactly the same.

In two of the lap-siding pieces, rout a narrow groove along the thin, top edge. The author clamped an overly long fence to his router table fence to add bearing support for this operation.
In two of the lap-siding pieces, rout a narrow groove along the thin, top edge. The author clamped an overly long fence to his router table fence to add bearing support for this operation.

When the dust clears, you’ll notice that because of the angle on the siding’s bottom edge, the rough, resawn faces will be the outer faces. To change this angle relationship, rip the bottom edge of each piece with the rough sides face-down and your table saw set at 90°.

Then glue up two roof panels from four siding pieces each, and trim their top edges at 15° where they’ll meet at the roof peak.
Then glue up two roof panels from four siding pieces each, and trim their top edges at 15° where they’ll meet at the roof peak.

Cut off just enough to change the angle. Next, use a dado blade tilted to 85° to cut the rabbet into these bottom siding edges. Leave two pieces un-rabbeted; these will be the bottom edges of the roof. Then cut the siding to finished length.

Lay out the two roof end pieces to create its pitch, then cut these angles at the band saw, freehand. A tapering jig would also work.
Lay out the two roof end pieces to create its pitch, then cut these angles at the band saw, freehand. A tapering jig would also work.

One last step: use a straight bit in your router table to make the 1/4″-wide, 30-1⁄2″-long roof vent cutouts in only the top two pieces.

After you’ve bevel-ripped the top edges of the roof sides and rabbeted their ends, attach them to the roof ends to form a frame.
After you’ve bevel-ripped the top edges of the roof sides and rabbeted their ends, attach them to the roof ends to form a frame.

Most router table fences aren’t long enough for this, as the cutout is longer than the fence. Mine wasn’t long enough, so I clamped a long auxiliary fence with a cutout for the router bit.

Arrange the roof panels for an even overhang on the roof frame. Mount them to the frame with glue and finish nails. Putty over the nail holes, if you like, to fill and hide them.
Arrange the roof panels for an even overhang on the roof frame. Mount them to the frame with glue and finish nails. Putty over the nail holes, if you like, to fill and hide them.

Glue the eight siding pieces into two roof panels, using weights and clamps as necessary to keep the assemblies flat and square. When the glue dries, trim their top edges at 15°, so there’s no gap where they meet at the roof peak.

Bore a 11⁄2"-dia. vent hole through each roof end. The author used a hole saw for this job
Bore a 1-1⁄2″-dia. vent hole through each roof end. The author used a hole saw for this job.

Next, lay out the roof ends (pieces 17), and cut them to finished length. Cut their slopes on the band saw. Now, rip two roof sides (pieces 18), and bevel-rip their top edges to 15°. Cut them to final length.

Staple window screen over these two holes from inside the roof to keep pests and birds out of the interior.
Staple window screen over these two holes from inside the roof to keep pests and birds out of the interior.

After you mill 1/2″ x 3/4″ rabbets on their ends, glue and screw the roof ends and sides into a frame. You’re now ready to install the roof panels with glue and finish nails. Then bore a 1-1⁄2″-dia. vent hole through each roof end, and staple window screen (pieces 22) over them to cover them from inside.

Cut the V-shaped angles into the roof ends at the table saw with the blade tilted to 75°. Make these two cuts incrementally, raising the blade until the inner waste piece falls free.
Cut the V-shaped angles into the roof ends at the table saw with the blade tilted to 75°. Make these two cuts incrementally, raising the blade until the inner waste piece falls free.

The roof has two end blocks (pieces 19). Make their V-shaped cutouts on the table saw. If you have a left-tilting table saw, move the fence to the left side of the blade for this operation.

Glue the roof ends to the roof at its peak. Then reinforce these connections by driving screws up into the roof ends from inside the roof.
Glue the roof ends to the roof at its peak. Then reinforce these connections by driving screws up into the roof ends from inside the roof.

Cut the angles a bit at a time, raising the blade incrementally after each cut. Be sure to cut from both edges before raising the blade. Crosscut the blocks to length, and glue and screw them to the roof.

Fasten the ridge cap to the roof ends with pairs of countersunk screws only — no glue. That way, you can remove it if the ridge vent screen ever needs to be cleaned or replaced.
Fasten the ridge cap to the roof ends with pairs of countersunk screws only — no glue. That way, you can remove it if the ridge vent screen ever needs to be cleaned or replaced.

Install screen (piece 22) over the ridge vent with screen retainer strips (pieces 21) and staples. Wrap up the roof by attaching the ridge cap to the roof ends with countersunk screws.

Machining the Top Bars

Cut the non-through end angles on the top bars at the table saw. Use your miter gauge and a stop block to control these cuts. Tilt the saw blade to 45°.
Cut the non-through end angles on the top bars at the table saw. Use your miter gauge and a stop block to control these cuts. Tilt the saw blade to 45°.

The 24 top bars (pieces 23) lie across the hive and form attachment points for the bees to make individual hanging combs. To build the bars, start with 1-3⁄8″-square billets that are cut to the final length. Cut the non-through end angles at the table saw using a miter gauge equipped with a long fence and a stop block for accuracy. Trim off this waste at the band saw to form a lapped end.

Trim the waste pieces free at the band saw to complete the “lapped” ends of the cross bars. It’s a faster, safer method than using a tenoning jig at the table saw.
Trim the waste pieces free at the band saw to complete the “lapped” ends of the cross bars. It’s a faster, safer method than using a tenoning jig at the table saw.

Set up for drilling the bars’ top holes by making three 1-1⁄4″-wide spacers. Clamp a stop on the drill press for the end hole. Drill the first hole and then slip a spacer between the stop and the bar’s end for each successive hole.

Cutting the bars’ long angled sides is tricky, but with the proper setup, it needn’t be dangerous. You could easily make the first cut with the point facing down, but the second cut would be impossible. Instead, you’ll need to cut the bars with the point facing up. Again, if you have a left-tilting saw, move the fence to the left side of the blade.

A stop block clamped to the drill press table, and three spacers, make it easy to drill the top bars’ three through holes so they’re evenly spaced.
A stop block clamped to the drill press table, and three spacers, make it easy to drill the top bars’ three through holes so they’re evenly spaced.

You’ll need three essential items to make these cuts: a zero-clearance insert (with its slot cut through at the same angle that you’re cutting), a featherboard and a push block. The zero-clearance insert and push block are job-specific but worth the added measure of safety. Without the zero-clearance insert, the offcuts will slide down between the blade and the throatplate’s opening, causing a dangerous binding situation. If your blade doesn’t lower far enough to allow an uncut throatplate to seat completely, groove the throatplate’s underside where it contacts the blade, allowing it to fully seat. Then raise the blade through the throatplate while it’s pinned down by the rip fence.

To create the long beveled edges on the top bars, the author used a special push block that fits around the top bar blanks and holds their lapped ends down against the saw table. It has a cutout area in the middle to accommodate the taller part of the upturned bars. Two cuts, with the saw blade tipped to 551⁄2° and passing through a zero-clearance throatplate, did the job.
To create the long beveled edges on the top bars, the author used a special push block that fits around the top bar blanks and holds their lapped ends down against the saw table. It has a cutout area in the middle to accommodate the taller part of the upturned bars. Two cuts, with the saw blade tipped to 55-1⁄2° and passing through a zero clearance throatplate, did the job.

The push block has two “feet” that hold down the thin lapped ends of the bars (see top center photo). Trim the feet to the same width as the bars, so that they don’t interfere with the featherboard. The block’s middle is cut out so that it bridges the taller part of the upturned bar. As you feed the stock, the blade becomes housed within the block.

Now that you’ve got all of your safety equipment ready, bevel-rip one side of each bar, then spin it end-for end in the push block to trim the other side.

Each top bar receives a narrow vent, milled at the router table, along one edge. These vents provide air circulation between the combs but are thin enough to prevent the bees from crawling through.
Each top bar receives a narrow vent, milled at the router table, along one edge. These vents provide air circulation between the combs but are thin enough to prevent the bees from crawling through.

Next, make a slight roundover along both top edges of each bar. The roundover makes it easier to insert a tool that’s used to separate the bars when they’re in the hive and coated with wax. The final step for the bars is to rout a 3/32″-wide, 4-3⁄4″-long vent on one side of each bar. When you set the bars in place in the hive, it creates a gap that’s too small for the bees to crawl through. The false back panel and top bar (pieces 24 and 25) are your last things to build. Rout a 1/4″ groove along the top bar for the panel, and just glue them together.

Apply a finish if you like, to the exterior only. The best choice is a natural finish , so it doesn’t affect the bees or the honey. Now assemble the hive and order some bees!

Click Here to download a PDF of the related drawings.

Hard to Find Supplies

Stainless Steel Piano Hinge #32611
Feed-N-Wax® Wood Polish and Conditioner #24545

Help our Pollinators

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Pollinators are in trouble — and that is not good news for those of us who like to eat! (Or for the environment or life on earth in general.) Recent studies and news stories report that honeybee and Monarch butterfly populations are in steep decline. The list of challenges for these essential insects is long: not enough forage (they are starving), pesticides, pollution, mites and other parasites — it is no bed of roses, literally. One bit of good news is that everyday folks are now starting to step up to try to reverse the trends that are hurting our pollinators. Below are just a few good websites (there are many more) for you to check out if you’d like to be a part of the solution.

http://www.backyardhive.com/

http://www.fws.gov/pollinators/PollinatorPages/YourHelp.html

http://www.xerces.org/bringbackthepollinators/

http://baselandscape.com/portfolio/pollinator-boulevard

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Making Safe Cuts Using a Custom Push Block and Zero-Clearance Throat Plate https://www.woodworkersjournal.com/making-safe-cuts-using-custom-push-block-zero-clearance-throat-plate/ Fri, 01 Jul 2016 16:12:27 +0000 http://rocklerwj.wpengine.com/?p=31421 Two safety tips for making tricky cuts on your table saw. We walk you through the problem solving process when you are faced with a challenging cut on your table saw. Don't take chances.

The post Making Safe Cuts Using a Custom Push Block and Zero-Clearance Throat Plate appeared first on Woodworking | Blog | Videos | Plans | How To.

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Two safety tips for making tricky cuts on your table saw. We walk you through the problem solving process when you are faced with a challenging cut on your table saw. Don’t take chances.

The post Making Safe Cuts Using a Custom Push Block and Zero-Clearance Throat Plate appeared first on Woodworking | Blog | Videos | Plans | How To.

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Redwood Slab Vanity Project https://www.woodworkersjournal.com/redwood-slab-vanity-project/ Thu, 16 Jun 2016 15:00:30 +0000 http://rocklerwj.wpengine.com/?p=30965 Furniture made from slab lumber is growing in popularity. This vanity uses sustainably harvested redwood burl to create a perfect bathroom centerpiece.

The post Redwood Slab Vanity Project appeared first on Woodworking | Blog | Videos | Plans | How To.

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Furniture made from slab lumber is growing in popularity. This vanity uses sustainably harvested redwood burl to create a perfect bathroom centerpiece.

The post Redwood Slab Vanity Project appeared first on Woodworking | Blog | Videos | Plans | How To.

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Curving Bendable Plywood Around a Form https://www.woodworkersjournal.com/curving-bendable-plywood-around-form/ Tue, 21 Apr 2015 16:40:12 +0000 http://rocklerwj.wpengine.com/?p=16243 Creating a curve in a piece can add a unique look to your next woodworking project. Brad Holden demonstrates the technique he used to create a bendable plywood base for his bathroom vanity.

The post Curving Bendable Plywood Around a Form appeared first on Woodworking | Blog | Videos | Plans | How To.

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Creating a curve in a piece can add a unique look to your next woodworking project. Brad Holden demonstrates the technique he used to create a bendable plywood base for his bathroom vanity.

Want the plans for this vanity? You’ll find them in the May/June 2015 issue of Woodworker’s Journal. Order the May/June 2015 issue here.

The post Curving Bendable Plywood Around a Form appeared first on Woodworking | Blog | Videos | Plans | How To.

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