Hab Lab

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Construction

Warning: Factor e Farm is permanently under construction.

This video shows the initial building stages of HabLab, up to the pressing of bricks and laying of the first walls. See the right hand side column for pictures of the finished interior.

Construction Update 2011/11/04 from Open Source Ecology on Vimeo.

Inside main hallway. Compressed earth brick walls.
Crushed stone floor, with moisture barrier and carpet on top.
Natural lighting in kitchen.

The need for all-weather housing to shelter year-round members of the community, located where summers can be unpleasantly hot and winters unpleasantly cold, can be met with superinsulated designs.

The Design Page shows possible designs that were considered.

Upgrades

  • Inspiration for a courtyard from Green Fab Lab Valldaura [1] - FablabValldauraCourtyard.jpg

Dorm Rooms

The Hablab is currently equipped with 22 dorm beds in 9 rooms - here is a picture of 13 of them:

Dorm Room 1
Dorm Room 2
Dorm Room 3
Dorm Room 4
Dorm Room 5

Survey & Design

The area on the property for the first group habitation was on a noticeable slope. OSE staff members worked with a home-made water level to take measurements over a 100' square area.

How to make a water level: http://www.youtube.com/watch?v=nAcT_1T25LM

Ideas submitted for this project are located on the Hab Lab Design Gallery page.

Building Orientation

Oops! Some of our pads got set 3' South of their intended site. Here is a redesign idea.

Emergency Remodel HabLab.png

Planning

There is a lot of planning that goes into building something like this. Here is a FreeMind mind map on that. It will be updated as we do more of it. The green nodes designate things we have completed - and therefore can 'go' forward with.

HabLab Planning.png

The nodes with arrows indicate those that have been created as separate mind maps. Their details will be found in the subsection to which they pertain.

Kitchen/Bath Water

A plan for gray water drains - includes a floor drain in the kitchen and the bathroom, 2 showers, a sink, and a Laundry location in the bathroom, and a sink location in the kitchen.

Gray Water Drains.png

See the How Not To page for what we ran into with this part of the project.

Utility/Storage Area

Heating

Space_Heating

Source Material

http://dnr.mo.gov/pubs/pub781.pdf

Osage orange fruit.jpg Osage orange identification.gif

Site Preparation

The Hab Lab is designed to be supported by columns built of CEB (Compressed Earth Block)which are constructed on a reinforced concrete pad. Due to the slope of our site, we designed a lowered section which requires a low retaining wall. Included here are instructions for preparing the site with adequate footings.


Here is a picture with a preliminary excavation layout for the column pad sites and the retaining wall in the Hab Lab.

  • When you are laying out the excavation site, be sure to add 5' in each direction for the excavator to work to.


HabLab Excavation Layout.png

This levels diagram is from our theoretical measurements - we actually wound up with a 2' drop, not a 2'8" drop. That will make only a minor difference in raising the building - changing the size of the retaining wall and removing one or two CEB's at the top of the lower columns to maintain the planned roof pitch.

Levels Diagram for Hab Lab Site.png

Foundations & Column Slabs

Column Pad Form Prep.png
Column Pads Completed.png

Laying out the Hab Lab excavation site to be square

Collect equipment and supplies needed

  • Blueprint of site plan
  • (2) 100’ Measuring tapes
  • 4 3-4’ stakes
  • Hammer
  • Bright spray paint

Steps for Staking out the excavation site.

  1. Choose a spot approximately 5 feet to the North and 5 feet to the West of the area to be excavated.
  2. Pound in a stake and spray paint the top foot or two of it.
  3. Measure due East a distance 10’ longer than the foundation width (total 67’).
  4. Place and paint another stake.
  5. Calculate a distance 10’ longer than the foundation length (total 62’).
  6. Calculate the diagonal measurement of the excavation site [Length(squared) x Width(squared) = Diagonal(squared)] (91'4").
  7. Measure due South from the Northwest stake the distance calculated in step 6.
  8. Set the second tape measure on the Northeast stake and measure the diagonal calculated in step 7 going Southwest.
  9. Set your third stake where the two measured lengths meet each other.
  10. Paint the stake.
  11. Measure due South from the Northeast stake the distance calculated in step 6.
  12. Set the second tape measure on the Northwest stake and measure the diagonal calculated in step 7 going Southeast.
  13. Set your fouth stake where the two measured lengths meet each other.
  14. Paint the stake.


  • With the site leveled, the foundation holes for the column slabs must be laid out.
  • After excavation, the stone fill for the foundation goes into the holes.
  • At the same time, the 6" stone floor foundation is spread.

Concrete forms and rebar reinforcing assemblies

These can be built well ahead of need whenever volunteers are available.

  • You could set up an assembly line effect to do them all at once with several people working together.
  • An individual might do one unit at a time.
  • An individual might do all the wood cutting at one time, another do all the rebar cutting at another time, another do all the rebar bending at another time.
  • A couple of people might work together to get some wooden forms assembled once the pieces are cut, another time, a couple of people might work together to get some rebar assemblies welded.

The following step-by-step instructions are provided for building the forms and the reinforcing rebar assemblies.

How to bend rebar

[Assembly sheet for column pad forms]

[Rebar plan for column footings]

Laying out the locations for the forms on top of the foundation stone

Once the form and rebar assemblies are built and the foundation stone is in place, the string site plan lay-out must be set up for placing the forms properly over their (now invisible) foundations. If you set your hole locating strings far enough out that the excavation didn't disturb them, this will be simple. It will be even easier if you rolled up your strings before the hole excavation got done and saved them. (See comments below!)

Collect equipment and supplies needed

  • Blueprint of site plan
  • 100' tape measure
  • Pre-placed marking stakes around outside of foundation site.
  • Rolled up pre-used string balls from foundation hole layout

Steps for Laying out Column Pad Form locations.

  1. Measure to check that all pre-placed marking stakes are properly positioned.
  2. If any are missing or misplaced, replace or reposition them as needed.
  3. Unroll and retie the strings to their corresponding stakes across the foundation site .

Here's what the layout over the stone should look like.

HabLab Column Pad Form Layout.png

-Notes- Be sure to read the How Not To page on this one!

Setting the column pad forms

Collect equipment and supplies needed

  • Supplies
    • 16 Pre-built column pad forms
    • 80 form stakes (we used 2"x2"x18" wooden stakes)
  • Equipment
    • Heavy Hammer(s)
    • 4'spirit Level
    • Water level
    • tape measure

Steps to place Column Pad forms

  1. Use with the center pad site on the upper level as the reference pad.
  2. Set a pre-built column pad form in place under the string lines with the inside of the forms under the strings.
  3. Drive two form stakes next to the outside of one side and one on each of the other three sides. They will need to sit deep enough that the tops of the stakes will be level with (or lower than) the top of the form.
  4. Level the form.
    1. Screw one of the stakes (on the side with two) to the side of the form so that the form sits 1/2" above the gravel level. Be sure that the top of the stake is level with (or lower than) the top of the form.
    2. Use the spirit level to set this side of the form level and screw it in position.
    3. Use the spirit level to set the opposite side of the form at the same level.
    4. Check the level on the other two sides and screw them in place.
  5. Use the water level to set the first level on each of the other pads on the upper level.
  6. Repeat the remainder of the leveling steps for each form.
  7. Use the water level to set the level of the center form in the lower level at 24" lower than the upper level pads.
  8. Complete the leveling steps for this form.
  9. Use the center form on the lower level for a reference form to set and level the remaining lower level column pad forms.
Setting Column Pad Forms Diagram.png

Preparing Column Pad Forms for Reinforced Concrete

Collect equipment and supplies needed

  • Supplies
    • 16 Pre-built column pad rebar assemblies
    • 64 rebar chairs
  • Equipment
    • Rake(s)
    • shovel
    • tape measure
  1. Use a rake and shovel to remove about 2" of stone from the inside of the form. (until is 6" deep)
  2. Pack removed stone around outside of forms to create a fully enclosed 6" deep form.
  3. Use one prebuilt column pad rebar assembly for each column pad site.
  4. Center the rebar assembly with 3” gap between assembly and form wall on every side.
  5. Set rebar chairs under corners of prebuilt column pad rebar assemblies.-Put a stone or some gravel under the chairs if needed to center the rebar so it will sit at about the middle of the finished slab (3" off the floor of the form).
Preparing Column Pad Sites for Concrete Pouring.png

Concrete Work

We are preparing to do the big concrete pour. Using the FreeMind mind map model, this is the node that outlines the dependencies so we can be ready for that. Following sections include instructions for accomplishing them.

Dependencies for Getting Floors Poured.png

Here is the mindmap updated after the all the concrete was poured.

Concrete Floors Poured.png

Here is the planning layout for the concrete - which we are planning to do in one great big pour. We'll let you know how it goes!

HabLab Concrete Forms Layout.png


Insulated Outside Wall Support Slabs

We are planning to put reinforced concrete the full 3' width of the Column Support Pads all the way around the outside of the building. They will be 3-1/2" (2x4 lumber size) deep and will support the two CEB walls that enclose the hay bale insulation. Rebar assemblies and concrete form sizes can be prepared ahead of time.

Preparing the rebar reinforcement assemblies

How to bend rebar


Rebar Assembly for 13’ Outside Wall pads (make 11 assemblies)

Collect supplies and equipment

  • (3) 20’ lengths #4 rebar
  • Measuring tape
  • Marker
  • Rebar cutter
  • Rebar bender
  • Spot welder

Steps to do:

  1. Measure and mark (2) 20’ lengths of #4 rebar 6’4” from one end.
  2. Bend at a right angle.
  3. Measure and mark each piece to bend into a U shape with 2’6” between the legs.
  4. Bend them into (2) U shaped pieces.
  5. Measure, mark, and cut the long end of each U to the same 6’4” length
  6. Measure and weld the two assemblies into a single rectangle of 12’6” by 2’6” dimensions.
  7. Measure and cut (1) 20’ piece of #4 rebar to 12’7” in length.
  8. Center the 12’7” piece between the long sides of the rectangular assembly.
  9. Weld it into place.
Rebar for outside wall pads.png


Rebar Assembly for 9’6” Outside Wall pads (make 2 assemblies)

Collect supplies and equipment

  • (3) 20’ lengths #4 rebar
  • Measuring tape
  • Marker
  • Rebar cutter
  • Rebar bender
  • Spot welder

Steps to do:

  1. Measure and mark (2) 20’ lengths of #4 rebar 4’7” from one end.
  2. Bend at a right angle.
  3. Measure and mark each piece to bend into a U shape with 2’6” between the legs.
  4. Bend them into (2) U shaped pieces.
  5. Measure, mark, and cut the long end of each U to the same 4’7” length
  6. Measure and weld the two assemblies into a single rectangle of 9’ by 2’6” dimensions.
  7. Measure and cut (1) 20’ piece of #4 rebar to 9’1” in length.
  8. Center the 9’1” piece between the long sides of the rectangular assembly.
  9. Weld it into place.
Rebar for 9.5' outside wall pads.png

Rebar Assembly for 7' Outside Wall pads (make 2 assemblies)

Collect supplies and equipment

  • (3) 20’ lengths #4 rebar
  • Measuring tape
  • Marker
  • Rebar cutter
  • Rebar bender
  • Spot welder

Steps to do:

  1. Measure and mark (2) 20’ lengths of #4 rebar 3’4” from one end.
  2. Bend at a right angle.
  3. Measure and mark each piece to bend into a U shape with 2’6” between the legs.
  4. Bend them into (2) U shaped pieces.
  5. Measure, mark, and cut the long end of each U to the same 3’4” length
  6. Measure and weld the two assemblies into a single rectangle of 6’6” by 2’6” dimensions.
  7. Measure and cut (1) 20’ piece of #4 rebar to 6'7" in length.
  8. Center the 6'7" piece between the long sides of the rectangular assembly.
  9. Weld it into place.
Rebar for 7' outside wall pads.png

Preparing the concrete forms

Our pouring plan requires these forms relating to the outside wall construction. For those wall pads that are part of our interior pads, additional forms are in other sections. If you are not pouring large interior pads, you will need to adjust the number of interior forms.

Exterior Forms for 13' Wall slabs. (make 10 assemblies)

Collect supplies and equipment

  • (2) 2"x4"x7' pine studs
  • (1) piece of scrap lumber,
  • (4) 3" screws
  • Driver

Steps to do:

  1. Start two screws into the flat side of each end of the piece of scrap lumber.
  2. Butt the two 7' boards end to end
  3. Lay the piece of scrap lumber over the seam butt joint.
  4. Be sure the narrow sides of the boards are lined up evenly with each other.
  5. Drive the screws in completely to hold the boards in line.

Interior Forms for 13' Wall slabs. (make 5 assemblies)

Collect supplies and equipment

  • (2) 2"x4"x7' pine studs
  • Measuring tape
  • Pencil
  • Saw
  • (4) 3" screws
  • Driver

Steps to do:

  1. Measure, mark, and cut one board to be 6' long.
  2. Start two screws into the flat side of each end of the 1' piece of scrap lumber.
  3. Butt the 6' piece with the other 7' board end to end
  4. Lay the piece of scrap lumber over the seam butt joint.
  5. Be sure the narrow sides of the boards are lined up evenly with each other.
  6. Drive the screws in completely to hold the boards in line.

Forms for Wall slabs on split-level section

Collect supplies and equipment

  • (6) 2"x4"x7' pine studs
  • (4) 2"x4"x10' pine studs
  • Measuring tape
  • Pencil
  • Saw

Steps to do:

  1. Measure, mark, and cut (2) 7' boards to be 6' long.
  2. Measure, mark, and cut (2) 10' boards to be 9'6" long.
  3. You will use the other boards uncut.
Exterior Wall Form Boards.png

Setting the forms

Narrow Wall Support Slabs

We will support and stabilize the interior CEB walls with a 12" wide x 3-1/2" deep concrete slab. Rebar assemblies and concrete form sizes can be prepared ahead of time.

Preparing Rebar reinforcement assemblies

Rebar Assembly for all 12” interior wall slabs

Collect supplies and equipment

  • (10) 20’ lengths #4 rebar
  • Measuring tape
  • Marker
  • Rebar cutter
  • Rebar bender
  • Spot welder

Steps to do:

  1. Measure and mark (2) 20’ lengths of #4 rebar 3’4” from one end.
  2. Bend 180⁰ the rebar with a 3” radius.
  3. Measure and mark so another 180⁰ with a 3” radius will produce 6’6” long assemblies.
  4. Cut the extra rebar (about 7’) off, leaving enough to tack weld each assembly together.
  1. Measure and mark (4) 20’ lengths of #4 rebar 4’4” from the end.
  2. Bend 180⁰ with a 3” radius.
  3. Measure and mark so another 180⁰ with a 3” radius will produce 8’6” long assemblies.
  4. Cut the extra rebar off, leaving enough to tack weld each assembly together.
  1. Measure and mark (4) 20’ lengths of #4 rebar 6’4” from the end.
  2. Bend 180⁰ with a 3” radius.
  3. Measure and mark so another 180⁰ with a 3” radius will produce 12’6” long assemblies.
  4. Use scrap cuttings (about 7’ long) to bridge the gap for each of these assemblies.
Rebar for 1' inside wall pads.png

Preparing the Concrete Forms

These 12" wide slabs will provide a firm foundation on which to build our interior CEB room-dividing walls. Mostly they use the same sizes of forms you used for the outside walls. If you are pouring in small stages, you won't have build more forms because you can reuse the ones from the outside wall slabs. If you are going to pour all the concrete at once, you will need 7 more of the 13' inside form assemblies, 4 more uncut 7' boards, 2 more 7' boards cut to 6' lengths, 6 more boards cut to 9'6", and two boards cut to 9' in length. Instructions for preparing all of these boards are found above - in the Outside Wall Slabs section.

Setting the Forms

Kitchen and Bath Areas

The Kitchen and Bath Floor Areas both have a potential for receiving noticeable amounts of water. We consider it advisable to pave them both with concrete and include a central drain. Rebar assemblies and concrete form sizes can be prepared ahead of time.

Preparing the Rebar Assemblies

Rebar Assembly for 16’x13’ slabs (make 2 assemblies)

Collect supplies and equipment

  • (3) 20’ lengths #4 rebar
  • Measuring tape
  • Marker
  • Rebar cutter
  • Rebar bender
  • Spot welder

Steps to do:

  1. Measure and mark (4) 20’ lengths of #4 rebar 6’4” from the end.
  2. Bend at a right angle.
  3. Cut the long ends to 7’10” long.
  4. Overlap the short ends of two L-shaped pieces and measure to make a U shaped assembly with 12’6” between the legs.
  5. Make two of these assemblies.
  6. Overlap the legs of the U-shaped assemblies to make a rectangle measuring 15’6” x 12’6”
  7. Measure and cut (5) pieces of #4 rebar to 15’7” long.
  8. Measure and cut (7) pieces of #4 rebar to 12’7” long.
  9. Space and position the cut pieces into a 24” grid across the rectangle.
Rebar for between big slabs.png


  1. Weld them into place.
Rebar for 16x13 slab.png

There is one more assembly to go into this section between the two big ones. It is a modification of the exterior wall slab reinforcements.

Rebar Assembly for Interior 13’x3’ section of big Slab

Collect supplies and equipment

  • (2) 20’ lengths #4 rebar
  • Measuring tape
  • Marker
  • Rebar cutter
  • Rebar bender
  • Spot welder

Steps to do:

  1. Measure and mark (2) 20’ lengths of #4 rebar 6’4” #from one end.
  2. Bend at a right angle.
  3. Measure and mark each piece to bend into a U shape with 2’ between the legs.
  4. Bend them into (2) U shaped pieces.
  5. Measure, mark, and cut the long end of each U to the same 6’4” length
  6. Measure and weld the two assemblies into a single rectangle of 12’6” by 2’ dimensions.

Preparing the Concrete forms

Because we are pouring this all at once, we decided to eliminate some complicated form work by including the equipment area and one room in this slab. This will be a big pour of concrete. It requires about 5 cubic yards of concrete. If you have plenty of time and are working in small batches, you can save over a yard of concrete by building the interior wall forms and pouring only wall-support pads - as shown on the layout.

The large slabs are laid between column pads, using 13' interior form assemblies. If you are pouring all at once, you will need two more of these assemblies, one more board cut to 9'6", and a piece of scrap about 3' long to complete the form work for this area. This, of course, assumes that you already have the exterior forms for the exterior wall slabs prepared. Instructions for preparing all of these are above in the Outside Wall Slabs section.

Setting the Forms

Retaining Wall for Lower Level

Ideas for this wall have been through several iterations. At present (Oct. 10th), we are planning to lay a 6" footer, 18" wide and 62' long. On top of that, we plan to put a 12" thick wall of bitumen-protected CEB. For the concrete footer, rebar assemblies and concrete form sizes can be prepared ahead of time.

Preparing the Rebar Assembly

Rebar Assembly for Retaining wall footer

Collect supplies and equipment

  • (9) 20’ lengths #4 rebar
  • Scrap #4 rebar to make (1) 6’ pieces and (1) 1’1” piece
  • Measuring tape
  • Marker
  • Rebar cutter
  • Rebar bender
  • Spot welder

Steps to do:

  1. Measure and mark (2) 20’ lengths of #4 rebar 8’ from one end.
  2. Bend at a right angle.
  3. Measure and mark each piece to bend into a U shape with 12” between the legs.
  4. Bend them into (2) U shaped pieces.
  5. Measure, mark, and cut (1) 6’ and (1) 1’1” piece of #4 rebar.
  6. Overlap and weld (1) 20’ length of rebar to each leg.
  7. Measure and weld the two longer legs together so the resulting assembly is 61’6” long.
  8. Weld the 6’ piece of rebar between the ends of the two shorter legs so that side is 61’6” long, too.
  9. Weld (3) 20’ pieces of #4 rebar into an approximately 60’ length of rebar.
  10. Center the 60’ piece between the long sides of the rectangular assembly.
  11. Weld one end at the center of one end of the rectangle.
  12. Position the 1’1” piece of rebar across the rectangle to support the free end of the 60’ assembly.
  13. Weld the short piece to the three long ones.
Rebar Assembly for Retaining wall.png

Preparing the Concrete Form

This is a really long form - 62 feet. You don't want to put it together ahead of time and try to carry it anywhere! What you do want to do is make sure you have all the pieces you will need cut and reserved against the time you will be setting the forms up.

Collect supplies and equipment

  • (8) 2"x6"x16' boards
  • (6) Pieces of 2x4 or 2x6 scrap for splicing.
  • Measuring tape
  • Pencil
  • Saw

Steps to do

  1. Measure and mark 18" from the end of (2) 2x6x16' boards
  2. Cut the two 18" pieces and mark them "form ends".
  3. Set aside the 6 16' boards, the 14'6" boards, the form ends, and all the scrap pieces in a reserve pile.

Setting the Concrete Form

CEB Columns

[UN CEB PDF]

Center

CEB Arches

[UN Vaults PDF]

[Hardness Test Hammer] for quality assurance

CEB Floors

[CEB Floor Instructions]

CEB Walls

Hab Lab Coursework Interior Walls.png

CEB Retaining Wall

Hab Lab Coursework Retaining Wall.png

Insulated Roof

  1. 16 11-member 2x6x16' frames
  2. a layer of tyvek
  3. a layer of lathe, mounted diagonally about 18" apart
  4. a layer of hay bales surrounded and around 2x12 spacers
  5. 16 11-member 2x4x16' frames
  6. agricultural roof panel on top and sides

Frames are built with one 16' beam on each end of 9 other 16' beams laid on 24" centers. These roof frames can be built quite quickly at any time labor is available, preferably ahead of time so that they can be installed as soon as the columns are ready to be covered.

Super Insulated Walls

2.5 foot thick wall.

4x6x12 bricks laid on the 12x4" side in standard wall layup, two walls outside surfaces 2.5' apart.

With air space left on either side, bales are stacked in the center of the wall, creating super insulation between the interior and exterior.

Heating the HabLab

I propose a Heatkit masonry furnace kit, surrounded by CEB

Considerations for Future Designs

Comfort

Premise:

People's comfort decides whether they want to spend time in a place.

Therefore,

Before monetary costs, structural engineering, or materials used, the design of a human environment must consider how well it meets the needs of its inhabitants, or else time saved on construction is worthless if people are too uncomfortable to spend time there.

Patterns that Hurt and Help

South Facing Outdoors

It is very pleasant to be able to sit inside during the winter and take in the warmth and view from the low winter sun.

People naturally gather along the southern sides of buildings as opposed to the north.

-Cooling problem with large south facing windows: Although the 4 foot overhang prevents summer sun from entering the windows, bare ground outside reflects light into the house, creating a greenhouse effect.

-Solution: Create an outdoor entrance room along the south side of HabLab, using a post-and-beam trellis structure to grow deciduous vines. This will provide shade in the summer and sun in the winter. The shade will prevent light being reflected off the ground into the southern windows. A post and beam structure with rafters could potentially serve as a structure for a partial roof, perhaps just over the main entrance to serve as a shelter from the elements, while waiting, saying goodbye, or watching the rain and snow.

-Problem: South facing windows to increase solar gain does not mean that main entrances should open to the south. There are many paths within and without a building that can increase or hinder the flow throughout a place.

Example: the main path into HabLab flows East/West, but the main entrance opens to the south.

Solution: Create entrances according to how they integrate with the natural paths and destinations of the site. This delves into a wider assumption of site design that buildings and spaces should be laid out on the ground where one intends to build, as opposed to isolated computer drawings. This is not to say computer drawings shouldnt be used, rather, the flows of the site should be laid out on a drawing so as to weave the building into the natural life of the place.

Example: File:HabLab contours.tiff

Download HabLab site .skp file and contribute designs and proposals for new buildings

This model is beginning to show the natural contours around HabLab, being recorded with the building as the nucleus for future buildings: terraces, walls, greenhouses, outdoor rooms, gardens, paths. As this is now a center of activity, we can observe the flows of humans, animals, nutrients, water, wind, sun, and earth by recording contours, paths, sun cycles, etc as a CAD model. Future buildings should center around existing buildings and activity.

Sleeping to the East

  • Windows in the east facing rooms of HabLab facilitate natural sleep rhythms. Humans are meant to wake with the sun.

Communal Eating

  • The glue that holds any human group together.
  • Give people a place to gather and eat in any building with more than one person.
  • How do we create a place for people in a future house cluster of singles, couples, and families to gather and share meals?

Links