10x12 Lean To Shed Plans - Construct

This mid-sized square storage shed measures a roomy 12x12 foot, making it the perfect to serve as a storage building, pool house, or office.

This square foot shed can even be used as an outbuilding for a small farm stand, with a space to display homegrown items.

Whether you want to store tools, a snowblower or lawn furniture, this square foot shed gives you all the extra room you need. The square foot of floor space makes it easy to organize all of your gear and still have space to hold a worktable for completing projects.

The design features a peaked gable roof for plenty of headroom, while the exterior is finished with your choice of siding to paint or stain. If you want to have privacy and comfort while working from home, but still be connected to nature, our 10x10 office shed plan might be perfect for you. This garden shed adds value to your home while saving thousands over the cost of hiring a professional to do it for you.

Made of solid wood construction with a slated lean-to roof, this outbuilding is large enough to serve as a pool house or workshop, too. This square foot storage shed design has a lean-to roof and barn-style double doors for a traditional look. When it feels like the walls are closing in on your house or garage, this square foot garden shed is just what you need to get organized.

This square foot shed has a peaked gable roof for a traditional look and provides loads of storage room. With square foot of floor space, you have all the room to organize tools, stack up lawn furniture, and even work on hobbies or a business. The square foot design has enough room for all kinds of light vehicles, including ATVs, Jet Skis and riding lawn mowers.

This shed can be used as an outbuilding to sell flowers, vegetables or as a central office for managing a farm or community garden.

You don't need special skills to build this square foot storage shed � just the time to follow our step-by-step plans and color diagrams. This shed has durable wooden walls to keep your garden tools protected from the elements while increasing your backyard value with an attractive outbuilding.

Add an entire spare room's worth of storage space with this square foot simple lean-to roof garden shed. When you build this shed, you call the shots about the final look, all while saving hundreds of dollars over the cost of hiring a contractor. This large shed measures square foot, making it a great choice for adding extra space to hold a snow blower and lawn furniture. The lean-to roof looks great in a variety of settings and is super-easy to build, while the shed's exterior can be finished in any color or style you like.

This wooden shed provides a roomy square foot of storage space and is durable enough to protect your valuable tools. Plans come with all the information you need to build this shed for far less than a contractor would charge - and you can do it in just one weekend!

The highly detailed plans helps to finish this square foot garage shed in just a few weekends, no matter what your experience level is. Lawn and garden enthusiasts need to store tools, edgers, mowers, and more, and this 16x20 foot shed offers just that.

With square foot garage shed plans, you can create an attractive, valuable garage that will stand forever and fit everything. Whether you use it to store garden tools, pool supplies, or turn it into a workshop space for hobbies, you'll have enough space in this enormous DIY shed.

With everything nailed together, move the wall out of the way. With the walls all framed, it was time to put them all together. The back wall would be impossible to finish once it was in place, so I had to sheath and waterproof it before raising it into place. LI laid the back wall on the floor platform. I also used the OSB to help square the wall before nailing it on.

I unrolled the 1 st or bottom row and stapled it to the OSB. I unrolled the 2 nd or middle row of tar paper and overlapped the lower layer by about 6-inches.

Stapled it down and rolled out the last row. I let it overlap the middle row, so it was flush with the top edge of the OSB and stapled it down. Both rows should be as long as the first row too. I began assembling the walls with the sheathed and protected back wall. With the back wall nailed and braced into position, I placed the left wall onto the floor.

I used the same fasteners to connect the end studs of the two walls. Plumbed and braced the walls. I moved the right wall into place. Plumbed and braced as with the left wall. I lifted the front wall into position; aligned it with the floor edge and side walls. I cut the top plates for the two side walls so they overlap the front wall. Used 3-inch nails to secure the top plates into place. The overlap ties the side wall more securely to the front wall.

I live in a snowy climate, and the lean-to roof slope gave me some concerns. That means for every inches or foot the roof runs; it goes up 5-inches. The steeper the slope, the faster it sheds snow, ice, and leaves, so less build-up.

Any greater and even my wife would have to duck going in! The roof is narrow enough, and close enough to the ground, that if snow build-up got too great, I could use a snow rake to remove it.

I checked the options for finishing the roof. The house and original shed had asphalt shingles, and I planned to use matching shingles if I could.

The nail head should sit flat and flush with the shingle when driven in. Step-by-Step process I used the practices laid out in my article about shed roof framing to calculate the length of the rafters and to layout and cut the angles of the birdsmouth.

Once a Build Your Own Lean To Shed Plans List pattern rafter was cut, it was used to mark all the remaining common rafters. For short rafters, it may be easier to set one in place and use a square to mark the cuts, and then use it as a pattern after making all the cuts. To select the lumber for the rafters I use a Rafter Span Table to determine the spacing and dimension lumber for your rafters. The dimension lumber needed for the rafter is determined by the span or unsupported distance the rafter must run.

The length of the rafter from the front edge of the back wall double plate to the front edge of the double plate of the front wall I calculated using the total rise and the total run it traverses. A bit of middle school math called the Pythagorean Theorem and a calculator, or use a construction calculator, or a free one online rafter calculator, to help determine the length.

This also identifies where the notch or back of the birdsmouth begins. This is rafter length before adding the extra distance for the eave overhang. To calculate the plumb angle for the rafter ends and the birdsmouth I use a framing square.

I layout the cut for the ridge end of the rafter first, and then mark where the birdsmouth begins. That is the plumb line for the rafter cut. The location of the back of the birdsmouth that hooks over the top plate of the outer wall is where the mark for the length of the rafter is. I draw a plumb line on the rafter at that mark similar to the ridge end of the rafter.

However, the rule of thumb is that the cut should not be deeper than a third of the thickness of the rafter. I use the building square on the underside of the rafter with the short arm down. I move the inside of the short arm up the plumb line from the rafter bottom to the desired depth � checking the square is aligned on the plumb line.

I mark a line along the rafter where the underside of the long arm of the square sits. The two lines form the cut out for the birdsmouth. I determine the length of the overhang or eves, and align the square to similar to cutting the ridge end of the rafter and mark the cut for the tail of the rafter.

The two end clips for the side rafters have one wing cut off � make sure to cut off the left from one clip and the right from another clip. I installed the rafter clips at inch centers, above each of the studs. Instead, I used Hurricane Ties to secure them and to prevent any wind lift, also less chance of splitting the rafter. For sheathing a roof either plywood or OSB are fine. The building code sets minimum thicknesses based on snow load and rafter spacing. I never throw out wood that could be used someday!

I tacked the fascia into place and used clamps to hold the bottom sheet of sheathing in place after aligning it. I measure the next piece, cut and slid it into place. Because the lean too was tight to the existing shed and its roof overhang, I secured the upper piece first. The lower piece was easier to slide up into the groove channel from below.

Then, drive another nails into the vertical joists on the side wall add-on. These ties will hold the rafters in place and also stop them from exerting downward pressure on the side walls of the lean to shed. Insert 5 support beams on the front and back of the shed to hold up the sloping roof.

Use a circular saw to cut 2x4 beams into support beams. These support beams will hold up the rafters on the sides of the roof. Cut the support beams and insert them under the roof.

Each support beam should be spaced Cut siding panels for the back, front, and high side of the shed. Measure the uncovered gaps on the upper portions of the shed, and use a circular saw to cut siding sections of corresponding sizes. Keep in mind that the siding panels that cover the front and back of the shed will need to be cut at the same angle as the rafters, in order to provide full coverage. Attach the siding panels using 2-inch nails.

Once the siding panels are cut to size, attach them to the add-on side wall and the support beams on the front and back walls. Drive 2-inch nails into the joists and support beams to hold the siding firmly in place. Drive screws straight down through the plywood and into the rafter beams. This way, gravity will pull the higher plywood sections into place. If you were to start nailing plywood at the highest point of the roof, gravity would pull lower portions off of the rafters.

Paint or stain the walls and roof of the shed to finish them. Stain will draw out the natural color of the wood, while paint will cover over the wood. However, if your roof was made of a material such as sheet metal, you could get away with a lower pitch.

Not Helpful 0 Helpful 0. There are lots of different options, but the most common spacing for a small roof like the one on a lean-to shed is 16 inches Not Helpful 1 Helpful 0.

When you build a shed, you only need to cover the cost of tools and raw materials. If you use reclaimed wood and other recycled materials, you can save even more money!

Include your email address to get a message when this question is answered. The size of the lean to shed is up to you. Small sheds are typically 4 by 8 feet 1. Helpful 0 Not Helpful 0. You may want to wear leather work gloves while working with lumber to prevent splinters and cuts. If you find that hammering in individual nails with a nail gun is too time consuming, try using an air gun instead. You can buy one at a local hardware store. Submit a Tip All tip submissions are carefully reviewed before being published.

Related wikiHows How to. How to. More References About This Article. Co-authored by:. Co-authors: 9. Updated: November 12, Categories: Garden Sheds. Article Summary X To build a lean-to shed, start by cutting lumber into joists that are the width you want your shed to be. Thanks to all authors for creating a page that has been read 91, times. Thank you for the time and effort put into it on our behalf.

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