Tag Archives: Small House

Steel Panel Building System 6

Front View 3

After Maker Faire I decided to setup the 8×8 building in our backyard. Since it will be there for a while I did a permanent setup, bolting everything together through the pre-punched holes instead of using the tie down straps. It took just under three hours for me to setup by myself (there wasn’t any wind).

Installing the floor on piers
Installing the floor on piers

I used partly buried concrete piers and leveled the 4x4s on them. Then I placed the floor panels on the 4x4s.

Wall base channel and flashing
Wall base channel and flashing

Then the wall base flashing was screwed to the floor panels.

Seams sealed with aluminum tape
Seams sealed with aluminum tape
Inserting the u channel
Inserting the u channel
Start walls
Start walls

Next I assembled the walls.

Further along on walls
Further along on walls
Wall top cap
Wall top cap

As each wall was completed the u channel top cap was installed.

Starting the roof
Starting the roof

Then the roof is set in place. It is held on with Dual Lock – sort of an industrial strength Velcro.

Roof on
Roof on

Once the roof was on, the walls were bolted down and the doors went on.

Doors on
Doors on

Finally, the windows, vents, and side wall top covers were installed.

Windows & vents
Windows & vents
Side wall top
Side wall top
Interior
Interior

I started assembling the building at about 9am Saturday morning. By noon it was complete and it was time to relax.

Ready to relax
Ready to relax

Steel Panel Building System 5

New Building at Maker Faire
New Building at Maker Faire

I haven’t worked on my steel panel building system in several years. Recently I decided to make some improvements I’ve been thinking about, and the Maker Faire in San Mateo was the motivation I needed. So about three weeks ago I started fabricating parts for the new building. I’ve made some significant changes and the building can now be assembled in one hour without any tools, and disassembled in 40 minutes. It did take five people to assemble it due to high winds, and three people to disassemble.

Porthole windows and vents simplify assembly and improve security.

 

Porthole Windows & Vents - Outside
Porthole Windows & Vents – Outside

 

Portholes - Inside
Portholes – Inside

Barn doors are easy to attach.

Barn Doors
Barn Doors

Cargo straps hold everything together for temporary installations. There are pre-punched holes for screws for a cleaner look on more permanent installs.

Cargo Straps
Cargo Straps

Everything for an 8′ x 8′ building fits in a cargo van.

Packed in Van
Packed in Van

Cost for this 64 square foot building is $8000 when hand built one at a time, or $125 per square foot.

Interior
Interior

 

Steel Panel Building System 4

Here is a photo of the almost complete prototype.

Front view of the Basic Shelter

The building is 8′ x 15′. It has an 8′ ceiling. There are three large windows in front and two smaller windows in back. The exterior can be painted or left natural.

Interior Wall

The interior walls are pre-finished. For the prototype I used 1/8″ mahogany type plywood that came as packaging for sheet metal. It actually doesn’t look too bad. The metal strips are the clips used to assemble the building. Continue reading

Steel Panel Building System 3

Wall Panel

My solution is to use two basic panels as the building blocks to assemble a building. The wall panel is a 2″ thick  ‘c’ shaped panel 8′ long. 1″ holes are pre-punched in the flange near the top and bottom of the panel to run electrical wiring if desired.

Assembled Wall Panel

The inside of the wall panel has a 3/8″ air space (thermal break), 1-1/2″ EPS foam insulation, and a pre-finished 1/8″ interior wall panel. There are also half panels (4′ long) and quarter panels (2′ long) that are used to create openings for windows. Continue reading

Steel Panel Building System 2

The primary goal of the Basic Shelter Kit was to design the minimum number of components that could be used to build a variety of shelters for disaster relief operations. With this in mind I developed a list of attributes to design towards.

  1. Minimize the number of primary components. Ideally there should be three or fewer ‘building blocks’, and 10 or fewer auxiliary components.
  2. None of the components should weigh more than 30 lbs. One person should be able to carry and install all components.
  3. No components will be longer than 10′ or wider than 4′.
  4. The components for an entire building of approximately 120 square feet should fit in a standard sized pickup.
  5. The components for at least 12 buildings of approximately 120 square feet should fit in a standard 40′ container.
  6. The buildings must withstand 100 mph winds and moderate earthquakes.
  7. The roof must support 2′ of snow.
  8. The building must be watertight, insulated, and wind-tight.
  9. Few or no tools should be required to assemble a building, and no power tools should be required.
  10. One person should be able to assemble a building of 120 square feet in one day.
  11. There should be zero waste produced during the manufacturing and assembly of a building.
  12. All materials must be recyclable and should have a high content of recycled material.
  13. All components must be reusable. A building should disassemble quickly for shipping and  installation at a new location.
  14. The same basic components must be capable of being used to build structures of various sizes and configurations.
  15. All of the components for a 120 square foot building should cost less than $2,000 to manufacture.

Steel Panel Building System 1

My first job after graduation from college was at Bailey Bridges, Inc. in San Luis Obispo, CA. The Bailey Bridge is an ingenious modular prefabricated truss bridge system. With just three main standard components, bridges from 10′ to 270′ in length, with no intermediate supports, can be built. The components for a bridge about 100′ in length can be transported on two standard 40′ flatbed trailers. Two people with a forklift or backhoe can assemble the bridge in 2 – 3 days if they know what they are doing. The bridge can be assembled on one bank of a river, and by bolting extra panels to the back end to add weight, it can be pushed forward on rollers until the front end reaches the other bank. While I worked at Bailey Bridges, Inc. we shipped a bridge to Antarctica, and several to Central and South America – they can be used almost anywhere.

Every time there is some type of disaster (the earthquakes in Haiti and Chile being the most recent) I wonder why no one has developed a system of modular prefabricated building components, like the Bailey Bridge system, that can be assembled into small shelters. Indeed, in the years around World War II there were a number of modular prefabricated building systems developed, including quonset huts, White Castle porcelain steel buildings, porcelain steel service stations, and the infamous Lustron houses. The Lustron debacle and the image of prefabricated buildings as cheap ‘mobile homes’ seem to have done in the industry, with a few exceptions. Continue reading