How To Build A Shed (Or Workshop) — My Workshop Build From Beginning To End
If you’ve wondered how to build a shed (or workshop), I’m here to help you! While I didn’t build my own workshop (which is just a big shed), I did take pictures of the whole building process throughout, and I think these pictures and explanations could help you if you want to build your own shed. After watching this process, I’m pretty sure I could build my own (much smaller) shed myself!
It really was amazing watching my workshop being built on Wednesday. It was like having a real life HGTV show happening right in my back yard, and it almost seemed to happen as fast as those unrealistic shows. The whole workshop, from beginning to end (not including the garage door installation) was built, painted, and shingled in a span of less than 27 hours. The whole structure was built and painted on the first day, and then yesterday, they returned to install the front door, shingle the roof, and strap down the anchors. The company I used contracts out the installation of garage doors, so they came later yesterday afternoon to install the door.
Here’s how it looks now that it’s completely finished.
And of course, when I say it’s finished, what I mean is that their part is finished. Now it’s up to me to take this from plain to cute, and I’ll do that by adding blue shutters, a coral front door, window flower boxes, front steps, skirting, and a perimeter of gravel around the whole thing. And of course, I’ll add some potted plants by the door. But for now, I’m just happy to have the building, even as plain as it is.
I took pictures of the whole process, and even though this wasn’t a DIY project for me, it could very easily be a DIY project for some of you. The process itself is not difficult. Where the difficulty comes in is that this isn’t a one-person project. You’ll definitely need some help, and that help needs to be (1) helpers who have muscle (for at least some parts of the process), and (2) helpers who aren’t afraid of heights (for the roof). But if you can find helpers like that, this could very easily be a DIY project, although I doubt that it will be a 27-hour project. 😀
There are a few reasons these guys were able to build this so fast:
- They do this every day and have the process down so well they could probably build these in their sleep. Watching them do this was like watching a choreographed dance. Each person knew their part and didn’t miss a beat.
- When they arrived, about 99% of every piece of lumber, plywood, and everything else they needed was already cut to the exact size they needed. This is done in their shop according to the measurements of the building. Not having to cut plywood and lumber to size on site saved a ton of time.
- These buildings aren’t built like houses. On a house, walls are generally raised when they’re just at the framing stage (only 2″ x 4″ lumber). Once the framed walls are raised, then they’re covered with OSB, house wrap, and then siding, in three separate steps. But when building these sheds (my workshop is just a big, glorified shed), they use a product that basically has the house wrap, OSB, and siding all in one product. So it gets applied in one step instead of three.
But even with those advantages and time-saving steps, it was still amazing to see this go from nothing to finished in such a short amount of time. And let me tell you something, these guys are hard workers!! They worked nonstop from 7:30am to 4:30pm, with only about a 30- or 45-minute lunch break. (I wasn’t here when they went to lunch, so I’m not sure exactly how long they were gone. But it couldn’t have been longer than 45 minutes.)
Anyway, let me get on with the process.
Laying out and connecting the skids
My shed workshop is 18′ x 27′, and for this size building, they used four of these big beams called skids. I didn’t measure them because I didn’t want to get in their way, but these looked to be 4″ x 6″. These went the length of the 27-foot building.
Because these skids don’t come in that length, they had to piece two together for each 27′ run. You can see where they have two laid out end-to-end for each one.
To secure those together, they used long pieces of 2″ lumber nailed to each side of the skid over the area where they connected. I didn’t get a picture of that when they did it, but you can see it here…
Building the foundation
Once they had all four skids assembled, they attached these boards, which were either 2″ x 8″ or 2″ x 10″ boards, and nailed them on so that the boards were lying flat on top of the skids. These boards overlapped the sides of the skids by about 10-12 inches, and overlapped the ends of the skids by about three inches as well. It was nailed to the skids so that the skids were 4 feet apart.
You can see that board here. They used about 20 nails through that board into each skid. I got a little behind in my picture taking and didn’t get a close up picture until the foundation was finished, but the board with the arrow is the one that was attached first.
After those two boards were attached (one on each end), they used that to build a perimeter frame using 2″ x 6″ lumber standing up on end. This perimeter frame was nailed into those two previous boards.
After that perimeter frame was nailed into place, they went back and added the floor joists (also 2″ x 6″ lumber) placed 16 inches apart on center.
Like I said, I got a bit behind on my picture taking (I didn’t want to get in their way), but they actually built the entire foundation directly on the ground (i.e., the skids were directly on the dirt), and then they went back and added the concrete blocks. After the concrete blocks were added, they then leveled the foundation using a jack and shims. I didn’t get a picture of that, but it should be pretty self-explanatory.
At this point, they used this machine, which was like a very slow turning auger, to place anchors into the ground. For a building this size, the city required six anchors, three on each long side.
These are the same anchors that are used for tying down mobile homes. They’re 30 inches long and have spikes that hold them in the ground. They didn’t actually strap it down at this point because they needed to be able to make adjustments as the building was being built. But they had to get the anchors in place while these areas were still accessible.
You can see one of the anchors sticking out of the ground here…
And with that, the foundation was finished. Here’s another look at one end so you can see all of the parts of the finished foundation.
And here’s a different angle…
Adding the subfloor
Next, they added these strips of plastic (it looks like strips of Tyvek-type house wrap) every four feet where the subfloor plywood would meet. (Again, I reiterate that these buildings aren’t built like a house. But if you’re doing it yourself, I would imagine you could wrap the entire thing if you wanted to.)
And then they attached the subfloor, which is 3/4-inch plywood, and nailed that to the floor joists and perimeter frame.
Building the front wall
Once the subfloor was installed, they moved on to building the walls. They started with the front wall (i.e., the wall with the front door and two windows).
Here’s a look at how a wall is constructed. It starts with a horizontal 2″ x 4″ board at the bottom. This is called the base plate or sole plate. Perpendicular to the base place are the studs. Those are spaced 16 inches on center. And then at the top is another horizontal 2″ x 4″ board. This is called the top plate. I’ve only ever seen the top plate consist of two stacked 2″ x 4″ boards, but they did one 2″ x 4″ and one 2″ x 8″ board. It all makes sense later.
In the above picture, you can also see how a window opening is framed. It starts with a load-bearing header at the top. That header is made of two 2″ x 6″ pieces with a piece of plywood sandwiched in between to make it 3.5 inches thick. And then a 2″ x 4″ piece of lumber is nailed to the top, and another one is nailed to the bottom. That entire assembly makes up one load-bearing header for a window, and it sits just under the top plate of the wall.
The same construction is used for the header above the door.
That header is held into place by two jack studs that form the sides of the window opening.
Under those jack studs is the rough window sill that forms the bottom of the window opening.
And that rough window sill is supported by two more jack studs underneath it.
And finally, cripple studs are added underneath the window opening and rough sill to maintain the 16-inch stud spacing.
The framing for the door is much simpler as it only consists of the top load-bearing header and a jack stud on either side supporting the header. Very simple!
Once the wall was framed, they added the all-in-one product that I mentioned earlier, which is basically an insulation/house wrap, OSB, and siding, all in one. They attached these so that the side edges of this siding product lined up with the side edges of the vertical studs on each end of this wall.
These pieces were nailed onto each stud.
You can see right here that these pieces extended past the bottom of the base plate by about five inches. You can also see what I mean about these pieces coming right to the side edges of the wall studs on the ends.
While one guy finished attaching the all-in-one siding pieces, another one used a router to cut out the openings for the windows and the door.
Next, they attached this fascia board (strips of the same siding product) to the front edge of the 2″ x 8″ board at the top of the wall. This strip extended past the top of edge of that 2″ x 8″ board by about four inches. I didn’t understand this at this point, but it all made sense later.
Here’s another view of it looking down at the top of the wall. You can see that the fascia board extends past the end of the wall on each end by about 10 inches, and it sticks up past the top of the 2″ x 8″ board by about three or four inches. This will make sense later. Before raising the wall, they also measured and marked the spacing for the trusses along the top plate of the wall.
Before raising the wall, they did all of the caulking, and also installed the windows. They used flanged new build windows that I provided (because I wanted the same windows on the workshop that we have on the house). Before installing the window, they put a bead of caulk around the top, the sides, and about two inches in on each side of the bottom. Then they placed the window in the opening and attached it. The caulk was between the flange and the siding.
They moved so fast that I missed getting a picture of them adding the trim around the window, but those trim pieces went right over the flange of the window and were nailed in place.
They did every bit of caulking (every nail hole, every joint, everything) before raising the wall. By the time the wall was raised, all it needed was paint.
And finally, it was time to raise the wall. Before they raised the wall, they attached two scrap pieces of lumber to the base frame to act as a stop to keep them from pushing the wall over the edge of the foundation as they raised the wall.
And there it is. The first wall (the front wall of the workshop) raised into place. At this point, they didn’t nail the wall into place. They just used bracing to keep it upright. They didn’t nail any walls to the subfloor/foundation until all of the walls were in place.
I took this picture of the edge view of the wall so that you could see why they extended that OSB/siding piece past the base plate of the wall by a few inches. It’s so that it overlaps that bottom frame of the foundation to keep water out when it rains.
Building the side walls
With that front wall up, they started on the side wall. The side wall shown in the picture below was pretty straightforward since it didn’t have any windows or a door. It’s just a solid wall. But this wall does include a truss for the roof, so it was a bit different from the front wall.
In the picture below, I’m looking at the wall from the top down. So the bottom (base plate) of the wall is at the far side from me. And just like the front wall, it consists of a 2″ x 4″ base plate and 2″ x 4″ studs spaced at 16 inches on center. But the top (in the foreground closer to me) is a bit different. The top place consists of two 2″ x 4″ pieces of lumber, and then they nailed on another 2″ x 4″ attached perpendicular to the top plate. And you can see that this perpendicular 2″ x 4″ extends on each end about four inches. I had no idea what this was for, but it was about to make sense.
Here’s a look at this wall from the other direction, with the base plate closer to me, and the top plate at the top of the photo. You can see that most of it is just a plain, straightforward wall structure.
So what was that top 2″ x 4″ that was attached standing up on its end used for? That’s what they nailed the end truss to!
So let me talk about the trusses for a second. This was the only part of the building that arrived pre-assembled. They had a whole stack of trusses that consisted of three boards — the two boards that form the peak of the roof, and the cross board that holds them together. But two of the trusses (one of which is seen in the picture below) didn’t have that cross brace holding the angled boards together. And those two were the end trusses that got attached directly to the end walls.
Instead of having that cross brace holding the side pieces together, they attached vertical pieces inside these trusses. The vertical pieces were nailed to that same top 2″ x 4″ piece to which the truss was nailed, and then these pieces were nailed into the truss at the top. The top nails had to be toenailed in (shot at a diagonal through the brace and into the truss).
I didn’t get a picture of the full construction of the truss before they raised the wall, but you can see a good view of it a couple of pictures down.
And just like the front wall, they did all of the construction and caulking before raising the wall. One very important difference on the side walls is that when they attached the OSB/siding material to the side walls, they extended the material past the studs on each end of the wall by enough inches to cover the exposed studs and edges of the OSB/siding material on the front wall and back wall. So that means the OSB/siding material extended past the end studs about 4.25 or 4.5 inches on the side walls. (Again, I didn’t want to get in the way, so I didn’t measure the thickness of the OSB/siding material, but I imagine it’s either 3/4-inch or 1 inch thick.) While one person finished the far side wall, the other started on the side wall closer to me.
One thing I did not get a picture of, but I hope I can explain here using this picture that jumps ahead many steps (try to ignore that confusing fact) is that before they raised the side walls, they attached a strip of the roof material (plain OSB) to the top edge of the truss, attaching it so that it was nailed down the center of the edge of the board, and so that it sticks out several inches. You can see that OSB strip here nailed to the top of the truss…
And then to the edge of that OSB strip that stuck out a few inches, they nailed these fascia boards. Unlike the fascia board on the front wall that extended out about 10 inches on each end of the wall, these fascia boards on the side walls were trimmed at the end of the truss.
And again, all of this was done before these side walls were raised, and everything was caulked and pretty much finished, except for paint, when the walls were raised.
I also want to point out that this wall with the big garage door opening was done exactly like the other walls in that it had a base plate that went the full length of the wall. That base plate was there until all four walls were raised, nailed to each other, and nailed to the subfloor/foundation perimeter. Only then did they come back and use a reciprocating saw to cut out the base plate in the garage door opening. But that plate needed to be there to add stability to the wall while they raised and moved the wall into place.
Here’s a view with both end walls up. You can now get a good view of those vertical pieces they attached inside the trusses on each side wall. They raised these walls, scooted them over so that they snugged up against the front wall, and then nailed the walls together from the outside of the building, nailing the end studs together all up and down the corner.
Once the walls were nailed together, they added these vertical trim pieces on the corners and caulked them.
They also added these additional temporary braces holding the front wall to the side walls.
At this point, they used a reciprocating saw to cut away the excess fascia board from the front wall so that the two boards met at the corner, and then they caulked these boards where they met.
Here’s a view from the front at this stage with the three walls standing.
I didn’t take pictures of the back wall being built and raised because that process was exactly like the front wall. Once it was raised, they nailed it to the side walls and added the outside vertical corner trim.
Building the roof
With the fourth wall raised, and because they had done the caulking before raising the walls, one guy started painting the building while the other two started working on the roof. I was fascinated to watch them do this. They hung all of the trusses upside down from the front and back walls.
Again, the trusses were the only part of the building that were pre-assembled when they arrived. But you can see that the construction of trusses is very simple. They are held together by pronged truss plates that span two boards, and the prongs are hammered into the wood to mend the two boards together. These pronged truss plates are readily available at big box home improvement stores.
And take note of how the ends of the trusses are cut. If we go back to the picture that I took of the truss being attached to the wall before it was raised, you can see how high the fascia boards on the front wall and back wall needed to be attached. The distance that the fascia boards extended past the top of the 2″ x 6″ top plate has to equal the height of the cut end of the truss plus the 3/4-inch thickness of the roof OSB material.
Once they had all of the trusses hung from the side walls, one climbed up on top of the front wall, and the other climbed up on top of the back wall, and one by one, working from my right to my left, they raised a truss right side up, placed it on the marks they had pre-marked before raising the walls, and nailed the trusses into place. And this is where you can see the genius in pre-attaching that fascia board, and why it extends up a few inches. It extends up the perfect measurement so that it covers the ends of the trusses plus allows for the thickness of the roof OSB. But it’s incredibly helpful during this step just to stabilize the trusses and make it easier for them to get them placed and nailed.
Once all of the trusses were nailed into place, the other guy had finished painting the building and started working on painting the trim while the other two starting attaching the OSB to the trusses. Again, these pieces were all pre-cut in their shop before they even got here, so it went pretty quickly.
And here it is! An entire 18′ x 27′ workshop built in a day!
The next day, they installed the door, shingled the roof, and strapped the building to the anchors. I didn’t get pictures of any of that process because those are very common things that most DIYers know how to do (except for strapping down a building, and I just didn’t want to get in his way, but I’m sure there’s a YouTube video showing that process.) But by watching this building process from beginning to end, I definitely learned a few things that I didn’t previously know, even with all of my years of DIYing. I actually feel like I could build a little shed myself now! (As long as I have helpers with muscle and no fear of heights, of course!)
I’m so excited to finally have my own workshop. It still has a long way to go before it’s actually usable, efficiently organized, and cute on the outside. But this is a great start!
So how much did this cost? The total for this building came to $21,472.66. That comes to $44.18 per square foot, which seems about right for an unfinished building that doesn’t have electrical, plumbing, and has an unfinished interior. It’s up to me to finish the rest.
Addicted 2 Decorating is where I share my DIY and decorating journey as I remodel and decorate the 1948 fixer upper that my husband, Matt, and I bought in 2013. Matt has M.S. and is unable to do physical work, so I do the majority of the work on the house by myself. You can learn more about me here.
I never plan on building one of these myself, but I LOVE watching the process and understanding how it is done. Thanks for all the details and great pictures.
Will you be moving your tools in before you finish it?
Just a thought after you wire and HVAC, I would put 1/2 or 3/4 plywood from counter height up between the studs so that no matter where you put a screw it had backing. More work, and cost but it makes installing shelves a breeze.
Awesome suggestion. Thanks!
Wow, that’s like watching a miracle unfolding before your very eyes!
Kristi, it’s AWESOME!!! And here I always tell people that “Home” wasn’t built in a day, well, you’ve proved me wrong. How wonderful not to have it all drag on like some projects. Instant gratification and now comes the fun stuff. Thanks for taking all of us along on this journey, it was great to see it all come together.
Can’t wait to see what’s next.
Cheers!
Curious if you will do a mini split for heat and air.
We just had one installed in our Arizona room that is enclosed but not heated or cooled. It serves as my art studio and would get to 107° in our Arizona summers. Best $$ we’ve ever spent!
That’s wild! I grew up around quite a bit of construction, and my husband is extremely handy as well, so I have just enough knowledge to follow all the terms you tossed around in this post 😉 We hired a company to construct a large steel building workshop (just the shell) for us last summer, and most of their materials were delivered precut and assembled on site according to a plan. That was another variation on this kind of quick new build. Cool to see how efficient the build for these basic structures have gotten.
Who would ever thought about hanging the trusses upside down until they were ready to put them right-side up to nail in place. I was amazed. I know you were well pleased at how fast it went up. And that they were not split between your shed and five more sheds. They just had yours to work on until it was finished.
Now make it cute and pretty.
I do have one question. How do you pull into the carport?
Keep smiling.
You pull into the carport from the side I’m guessing. Don’t think she ever pulled in from the end.
Very interesting and it seems a nice size shed for the price.
Well congrats!!! It will be wonderfully useful.
It looks fantastic! Is that Hardi-board exterior cladding? And, will you insulate the building?
Similar product, but I think it’s a different brand. I probably will insulate, but I’m still thinking through all of the interior details.
We will be enjoying (?) the build of our neighbors’ house this fall. Workers were here this week clearing the footprint of the house of trees, hauling the large trunks away and today are burning the smaller remains. Soon the basement will be dug out and concrete forms will be installed for the walls of the basement and foundation. While it is always noisy work, it is also interesting to see what goes into constructing a building. I just don’t look forward to two parts – the removal of the concrete forms, and the shingling of the roof! Both of those processes go deep into my brain!!! I will be interested in seeing how you run plumbing and electrical. Where will you have to tie in to the sewer??? And how do you connect to the electricity, will you need an additional box for a meter?
Will you be adding gutters, if not why? I fear the ground getting soaked and the foundation failing from rot in years to come. If you had a rain barrel off one side you could have free water for the plants in the flower boxes.
It’s a beauty! I hope you build many fun things to come!
I haven’t even thought that far, but I live in central Texas. Our ground doesn’t get soaked. Our ground has huge cracks in it from being so dry pretty much all year round. If anything, we’re told to water our foundations in this area.
It was so easy to follow your step-by-step commentary! It’s amazing how this came together so quickly! Looking forward to all the steps you will go through to finish it!
Thank you, thank you for taking the time to explain the process of building your workshop! My husband and I are DIYers and we have a workshop/storage building (but it took months to build). We have learned a lot from you and your tutorials. You are amazing!
Bonus learning: That shot showing the back of your house helped me better visualize your interior floorplan and understand the scale of your sunroom, which I’d imagined much larger.
Where do you park your two vehicles?
Thank you for sharing the full process. It’s fascinating.
I really look forward to seeing how you finish the interior of your workshop. I have a small shed that I call my potting shed. I need to do something on the interior to improve it. Right now it is fairly rough, but somewhat functional.
I look forward to a post on your completed studio.
My workshop has the same siding as yours, here it’s called “Smart Board.” For interior walls I bought and installed the same product. I filled between the studs with batt insulation and then just screwed it into the studs. It has overlapping seams at the sides and there is no taping, mudding, etc. that you need for drywall. Also, you can easily hang stuff on it, although for really heavy tools I attached at the studs.