Table of Contents
- 1Introduction, Description & Measurements
- 2Materials & cutting list
- 3The side, front, & top elevation plans
- 4Shaping the wood by measurements
- 5Shaping the wood by grid plan
- 6Shaping the wood by pattern printout
- 7Shaping and cutting the pieces
- 8Assembling the seat unit
- 9Assembling the arm and leg unit
- 10Joining it all together
- 11The final touches
Introduction, Description & Measurements
This is the 4th version of this particular project.
This updated version (take 4) of our previous plans highlights the value of user feedback and contributions. Many of the changes and improvements implemented in this version are as a direct result of user input.
One of the features of this version is the three options given on how to shape the individual pieces, and one of these options was contributed by a user.
This style of chair is pretty much universal, and the chair goes by various names depending on the region. ‘Adirondack’ chair, ‘Cape Cod’ chair, and the ‘Muskoka’ chair appear to be most common, but there are more.
Our chair is bigger than most similar designs – more substantial and a bit more laidback (by that we mean the angle of the back recline). Furniture these days tends to be a bit more flimsy than that of yesteryear. This chair leans more towards the ‘old’ rather than the ‘new’.
It’s a chair you can sit comfortably in, kick back and relax.
The Any of the three linear measurements, length, breadth and depth. given in this project are in both Standard. Feet and inch measurements. (inches) and Millimeter measurements. (Abbreviation for millimeter which is a metric unit of length equal to one thousandth of a meter. 25.4 mm equals one inch.).
Throughout the script, the imperial measurements are given first, followed by the metric measurements in brackets ( ).
For example: 2″ x 4″ (100mm x 50mm).
Note that most countries that use the imperial system generally call the smaller numeral first, for example: 2″ x 4″ (2 inches by 4 inches). Most countries that use the metric system generally call the bigger numeral first, for example: 100mm x 50mm (100 millimetres by 50 millimetres).
For rounding-off purposes, the imperial sizes in this project are not an exact match to the corresponding metric sizes.
In fact, a structure built using the imperial measurements (inches) will be approximately 1.6% larger than the same structure using the metric (mm) measurements – not really worth worrying about.
The imperial measurements are more suited to North America. The metric measurements are more suited to Australasia and other countries.
The size (width and thickness) of the Timber, lumber. The hard fibrous lignified substance under the bark of trees used in this project is the ‘actual’ (true) size.
That is, the size of the wood after it has been Surfaced; planed; smooth; even surface; gauged. (See Dressed., planed and/or seasoned). For example: 1 1/2″ x 5 1/2″ is ex 2″ x 6″, and the metric equivalent 140mm x 45mm is ex 150mm x 50mm.
Materials & cutting list
All the wood used for this project is 3/4″ (19mm) thick, with the exception of the arms which are 1 1/2″ (45mm) thick. That is to give a bit of meat to the arms and something substantial to screw the upper back support to.
What you will need
For the seat sides, legs, back slats, upper back support, and the seat slats you will need…
38ft (11.5m) of 3/4″ x 5 1/2″ (140mm x 20mm) wood, allowing for a little bit of wastage.
For the front and rear spacers, lower back support, and arm braces you will need…
8ft (2.4m) of 3/4″ x 3 1/2″ (90mm x 20mm) wood, allowing for a little bit of wastage.
For the arms you will need…
64″ (1600mm) of 1 1/2″ x 5 1/2″ (140mm x 45mm) wood.
Note: When cutting, cut the longer pieces first to minimize wastage.
You will also need…
– Around 90 exterior-type 1 1/2″ (38mm) long screws.
– Four 3/8″ x 2″ (10mm x 50mm) Covered with a protective coating of zinc. Are round headed bolts with square shoulders that resist rotation when located or driven into place. They can be called coach bolts or carriage bolts depending on which part of the world you live in. The head end of the bolt does not need a washer, but the other end of the bolt (the nut end) usually does. and washers.
– Exterior-type glue
The cutting list
|ID||PART||STOCK SIZE||LENGTH||NO. REG’D|
|[a]||seat sides||3/4″ x 5 1/2″ (140mm x 20mm)||39″ (975mm)||2|
|[b]||rear spacer||3/4″ x 3 1/2″ (90mm x 20mm)||23 1/4″ (580mm)||1|
|[c]||legs||3/4″ x 5 1/2″ (140mm x 20mm)||22 3/4″ (570mm)||2|
|[d]||lower back support||3/4″ x 3 1/2″ (90mm x 20mm)||24 3/4″ (620mm)||1|
|[e]||back slats||3/4″ x 5 1/2″ (140mm x 20mm)||38″ (950mm)||4|
|[f]||arm braces||3/4″ x 3 1/2″ (90mm x 20mm)||7″ (175mm)||2|
|[g]||seat slats||3/4″ x 1 3/8″ (35mm x 20mm)
A cut lengthwise along a board that also runs with the grain. (As opposed to cross-cut.) (cut lengthways) from 3/4″ x 5 1/2″ (140mm x 20mm) stock
|24 3/4″ (620mm)||16|
|[h]||arms||1 1/2″ x 5 1/2″ (140mm x 45mm)||32″ (800mm)||2|
|[i]||upper back support||3/4″ x 5 1/2″ (140mm x 20mm)||30 3/4″ (770mm)||1|
|[j]||front spacer||3/4″ x 3 1/2″ (90mm x 20mm)||24 3/4″ (620mm)||1|
The side, front, & top Side view of a building. plans
Click on the side view image below to see an enlarged version in a new window.
Side elevation plan
Click on the side view image below to see an enlarged version in a new window.
Shaping the wood by measurements
Shaping the wood. Option 1 – By measurements
Shaping the wood by grid plan
Shaping the wood. Option 2 – By grid plan
The grid plans below show the drawings scaled in a grid where the line spacings represent 1″ (25mm).
To create a full size pattern, draw a grid onto cardboard with line spacings 1″ (25mm) true size.
Then copy (draw) the shapes below, onto the cardboard using the grid lines as reference points.
Cut the patterns out of the cardboard and use them to mark the chair pieces.
Shaping the wood by pattern printout
Shaping the wood. Option 3 – By pattern printout
This option involves downloading a PDF file containing a full size pattern for every piece of wood that requires shaping.
Simply download the pattern file to your computer and have it printed out in full size.
The file is a contribution from one of our readers.
Quote: “As a thank you for the free plans you provided, I’d like to GIVE YOU a PDF file with the drawings. Users can email them to any copy, office supply or blueprint store, and get an ‘E-sized’ drawing (34″ x 44″)”.
We know this works well because we tried it ourselves.
Right click on the ‘PDF plan’ image to the right and a pop-up menu will appear.
From the menu select “Save Target As…” or “Save Link As…” depending on your browser.
Then select the directory where you would like the plans saved. For example, your desktop.
Angela holding up the full size adirondack template You can email the file to any copy, office supply or blueprint store, and get an “E-sized” drawing 34″ x 44″ (864mm x 1118mm)
You can put the file on a common portable data storage unit such as a USB stick and take it to the printers.
Note: E-size is a US standard 34″ x 44″. The metric equivalent is 864mm x 1118mm.
The point equivalent is 2448 x 3168.
Most blueprint stores would understand those measurements.
You can print the file yourself onto standard A4 paper.
How? On the printer setting page select ’tile large pages’ (if applicable) and ensure scale is How much the teeth are angled out on a circular saw blade. to ‘100%’.
It should print out the full size pattern on tiles (A4 pages). In all, about 20 pages.
It will then just be a matter of joining the pages together in sequence while gluing them onto a big piece of cardboard.
Once dry, you can then cut out the full size patterns, and they are ready to use.
Shaping and cutting the pieces
Step 1. Cut the pieces to length
Take note, the two arm pieces are thicker than the other pieces.
Altogether there are three different stock sizes required.
Cut all the pieces to the lengths given below or refer to the cutting list on page 6.
From 3/4″ x 5 1/2″ (140mm x 20mm) stock…
Cut two pieces at 39″ (975mm) long, for the seat sides.
Cut two pieces at 22 3/4″ (570mm) long, for the legs.
Cut four pieces at 38″ (950mm) long, for the back slats.
Cut four pieces at 24 3/4″ (620mm) long, for the seat slats, and then rip each piece into four equal strips making 16 slats.
Cut one piece at 30 3/4″ (770mm) long, for the upper back support.
From 3/4″ x 3 1/2″ (90mm x 20mm) stock…
Cut one piece at 23 1/4″ (580mm) long, for the rear spacer.
Cut one piece at 24 3/4″ (620mm) long, for the lower back support.
Cut two pieces at 7″ (175mm) long, for the arm braces.
Cut one piece at 24 3/4″ (620mm) long, for the front spacer.
From 1 1/2″ x 5 1/2″ (140mm x 45mm) stock…
Cut two pieces at 32″ (800mm) long, for the arms.
Step 2. Make the patterns and/or mark the wood
Some of the pieces will need to be shaped, therefore the shape must first be drawn on wood.
You can either make a pattern and trace the shape onto the wood, or mark directly on the wood by measuring from a plan drawing.
In this documentation there are three options on how to do this.
Option 1 – Measuring off a plan (see page eight).
Option 2 – Making a pattern using a grid (see page nine).
Option 3 – Printing out a full size pattern (see page ten).
Step 3. Cut the shapes
Once all the shapes have been marked onto their respective pieces of wood, either by tracing around a pattern or by measuring from a plan drawing, cut them out using a tool such as a jig-saw to cut any curved lines.
Assembling the seat unit
Step 4. To secure with nails or screws. the lower back support to the seat sides
Place the two seat sides (a) on an even work surface (saw-horses, etc.) and fix the lower back support in place with glue and wood screws.
Note: For every joining, ensure that there is ample glue and pre-drill all screw holes in the covering piece of wood.
Step 5. Fix the rear spacer
Fix the first seat slat (g) in place (just to keep the seat sides Being of equal distance from each other at all points.) and then turn the unit on its side and fix the rear spacer (b) in place.
Pre-drill the screw holes in the seat-slat (one each end) and also through the seat-sides (two each side, where the rear spacer lines up) and allow ample glue.
Step 6. Fix some of the seat slats
Turn the unit upright.
The first seat slat (g) is already fixed in place.
Add another 10 seat slats, one next to the other, in the same manner i.e., pre-drill, glue and screw.
Note: Do not fix the rest (the last 5) just yet, we will do that at a later stage.
Step 7. Join together a leg, To make rigid. and arm
Join together the legs (c), braces (f) and arms (h) in the following order.
1.) Glue and screw the braces to the arms. Refer to the ‘side elevation plan’ on page 3 for placement. Screw through the arm (pre-drill first) into the brace.
2.) Lay the arms upside down and centralize the leg and brace combinations (also upside down) on the arms, 2″ (50mm) in from the front.
Assembling the arm and leg unit
Step 8. Toe-nail the legs to the arms
Once the legs and braces are positioned correctly on the arms (currently in upside-down mode, see step 7.), they can then be secured.
Do this by gluing and toe-nailing (skew, angle nailing) through the sides of the braces and legs into the arms.
Pre-drill the A short nail with a large flat head used for securing roofing felt, plasterboard, sheet metal to wood etc. holes in the braces and legs to avoid splitting.
Step 9. Align the two arms with one-another
Lay the two leg, brace and arm combinations upside-down on a flat surface.
Space them apart, parallel. The distance between the legs (currently in upright position) should be 24 3/4″ (620mm), which is the length of the front spacer (j).
Lay and fix (temporarily) a couple of strips of wood across the arms to hold them (the arms) parallel in position, just until the upper back support (i) and the front spacer (j) have been added.
Step 10. Add the upper back support and the front spacer
Add the upper back support (i) and the front spacer (j).
Refer to the ‘side elevation plan’ on page 3 for positioning.
You will probably need a hand to hold them in place while fixing.
Step 11. Prepare the seat
Now is probably a good time to give the seat slats a good sanding to make sure the seat profile is nice and rounded.
Not all the seat slats are fixed in place at this stage.
This is to allow room for the back slats to be fixed without too much problem.
Joining it all together
Step 12. Join the arm assembly
Place the arm/leg assembly on even surface and prop it up so that the arms are parallel with the even surface.
Then slip the seat assembly in between the legs, so that it sits on the front spacer (j).
Position the seat assembly in relation to the arm/leg assembly as shown in the ‘side elevation plan’ on page 3.
Then firmly clamp the legs to the seat sides.
Step 13. Tilt the chair in preparation for the back slats
At this point everything should be in its rightful position, i.e., the arms should be parallel with the surface and the leg should be 29″ (725mm) from the very back of the seat sides as shown in the ‘side elevation plan’ on page 3
Now tilt the chair back and prop it slightly off the ground in order to place and fix the back slats with ease.
Step 14. Fix the back slats
Put glue along the shaped edges of both the upper back support (i) and the lower back support (d).
Lay the two middle back slats (e) in place. The positioning will be obvious. Make the bottom of the back slats Being even with. with the bottom of the lower back support.
Pre-drill the screw holes and screw the back slats to the back supports.
Then place the two side back slats one each side of the middle back slats, and screw them in place.
The final touches
Step 15. Secure the legs/seat sides
Now you can permanently fix the legs to the seat sides.
Drill two 3/8″ (10mm) diameter A metal rod that has a head on one end and threads on the other and is used to fasten together lumber. The most common bolts used or referred to in projects within this website are coach/carriage bolts and hex bolts. holes through each leg and seat side.
Refer to the ‘side elevation plan’ on page 3 for positioning.
Insert 3/8″ x 2″ (10mm x 50mm) galvanized carriage bolts with washers into the holes and tighten them.
Step 16. The remaining seat slats
You can now add the rest of the seat slats.
Don’t forget to use ample glue first, and pre-drill the screw holes in the seat slats.
The edge of the last seat slat may need a bit of shaping to fit it neatly against the back slats.
Each seat slat only requires one screw at each end. That along with the glue is sufficient.
Step 17. Final touch-up
Just the final touch-up now.
A bit of a sand here and there.
Whatever you like. Limited only by your imagination. A white chair would pretty much fit anywhere, whereas a specialist color might be just the trick to suit a particular surrounding.
Step 18. Done!
Well, that’s about it: A big, strong, and comfortable, ‘Cape Cod’, aka ‘Adirondack’, aka ‘Muskoka’ chair.