The Geodesic dome DIY Handbook Part 2

Apr 032013
 

MODEL MAKING

By far the best way to see what a geodesic dome looks like is to build three dimensional models. This is not difficult and lets you see how the geometry works, what size and shape you like and possible window and door placements.

The best drawings and photos are inferior to the simplest model when it comes to demonstrating three dimensional relationships.

Playing with models can lead to the discovery of valuable insights; not to mention that they are fun to make and look beautiful too.

There are two basic types of model building, as is full scale dome building. These are:

  1. The HUB AND STRUT method. ie. Building a framework and then covering it with a skin. and
  2. The MEMBRANE or PANEL system. ie. Where the skin is attached to the struts in premade triangular panels and the panels are later bolted together.

Before starting your first model, there are a few more simple geometric elements to become familiar with. These are:

CHORD FACTORS, CENTRAL ANGLES, AXIAL ANGLES,

FACE ANGLES and DIHEDRAL ANGLES

For each type of dome there is a method of calculating strut lengths and the angles at which they meet and how they are assembled.

The CHORD FACTORS are of the most importance here as they are needed to determine strut lengths.

Chord Factor = 2 Sin (Central Angle/2)

STRUT LENGTH = DOME_ RADIUS X CHORD FACTOR

Once you have a table of chord factors you can calculate strut length for any size dome you want.

geodesic_dome_diy_axial_central_anglesThe CENTRAL ANGLE is the angle produced by extending a line from the strut ends to the centre of the sphere.

AXIAL ANGLES are useful in hub design. They are the angles that the strut ends make with the centre of the sphere.

Axial Angle =  180 degrees minus Central Angle /2

geodesic_dome_diy_face_dihedral_angles

FACE ANGLES are the internal tip angles of the triangles and are necessary when cutting hubs and triangle panels.

DIHEDRAL ANGLES are the angles between triangles. They are useful if you plan to bevel the skin panels or use bevelled struts.

geodesic_dome_diy_2v_3v_breakdowns
2v and 3v breakdowns with original Icosa face dotted

geodesic_dome_diy_3v_icosahedron

geodesic_dome_diy_3v_58_chart

The diagram above shows the statistics for a Three Frequency Icosahedron Dome.  To make a 5/8 sphere you will need:

geodesic_dome_diy_3v_strut_count

Choose your method of model assembly (following pages) and assemble as in the diagram on page 8. This model will sit ?at on the 3/8 and 5/8 levels. It is simpler to join all the pentagon and hexagon spokes together ?rst. Make six pentagons from “A” struts, ten hexagons from “C” struts and ?ve “halt” hexagons for the base.

A simpler model can be made using only three strut lengths by substituting “D” struts with “B” struts and using the new chord factors of:

A = .34862       need 30
B = .40355       need 55
C = .41241        need 80

This model will not sit flat however but will rest on the five half-hex hubs under the pentagons. For a very similar truncation (fraction of a dome), the Kruschke method is used (in this case a 5/9).

Three-frequency icosahedron spheroid

geodesic_dome_diy_3v_spheroid1geodesic_dome_diy_3v_spheroid2

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The Geodesic dome DIY Handbook Part 1

Apr 022013
 

INTRODUCTION

This e-booklet has been compiled to assist potential owner-builders of Geodesic Domes to prefabricate and erect a variety of geometric configurations utilising a number of possible construction techniques.

Much of the data is gleaned from long-out-of-date publications and from the author’s practical experience and experimentation in building domes since 1973.

Most of the ideas within have been tested and proven successful but are certainly open to further refinement and development. Rather than promoting any one system as being the ‘best’, I would prefer to offer ideas and possibilities to the great Australian tradition of “Do-it -yourself” and share my own experiences of what can work.

With this in mind I welcome any feedback about your own experiments, learning experiences and successes and invite any correspondence to share such knowledge. This manual is intended for educational purposes only.

It presents information on principles and techniques that the author has not necessarily employed. It is not suggested that these methods must be followed or that if followed will result in a safe or satisfactory building.

Due to variations in materials, quality of workmanship, tools and equipment, materials and components, local building codes etc., the author assumes no liability for any structure designed or constructed from information in this manual unless it is built by The Dome Company or our nominated sub-contractor.

 

Geodesic Geometry

GEODESIC = The shortest line between two points on a sphere.

There are only five different structures that we can build where all the sides, faces and angles are equal. These regular solids are called PLATONIC solids.

geodesic_dome_diy_platonic solids

Of these five, we see that three are made of triangles. As we might expect, the tetrahedron,octahedron and icosahedron are rigid; while the cube and dodecahedron are not. The cube is the basis for most types of buildings. The icosahedron is the basis for most Geodesic Domes.

You can make small structures with icosahedrons, but if you begin to make bigger structures, the triangles get large and heavy and you begin to need big timbers for the members.

Dome geometry is all about the subdivision of large triangles into smaller ones.

geodesic_dome_diy_icosahedron_smallAn Icosahedron has twenty equilateral triangular ‘faces’. When the face is subdivided. it is not
done equally, but done so that the faces begin to curve outward;this gives you more strength. Each face can be divided by a line (arcs on a sphere) parrallel to the edge.

The number of divisions is called “FREQUENCY”.

geodesic_dome_diy_frequencies

As the frequency increases, the number of members or “STRUTS” and the numbel of triangles increases also, and the closer you get to a sphere.

The following diagram below is of a THREE FREQUENCY (3v) ICOSA 5/8 SPHERE.

Each of the original Icosa faces is heavily outlined. Looking at a geodesic dome on can determine the frequency by counting the number of struts between the apexes 0f the pentagons.

geodesic_dome_diy_truncations

Note: divisions are different for different frequencies. See chart below for correct nomenclature

geodesic_profile_fractions

 

Consider the domes outlined below

 

geodesic_dome_diy_page4a geodesic_dome_diy_page4b

 

 

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Geodesic Plans Collection

Mar 292013
 

If you are looking for geodesic plans for a greenhouse, shed, or just a nice summer patio, be sure to look at the new Geodesic Plans page.

These plans are offered by Paul of Geo-dome and all plans include support to help you build any of the structures offered. Prices vary between $24 and $45. All plans have been built and tested.

Best of all, these are hubless designs which require a minimum of tools to make.

geodesic_plans_collections

 

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Geodesic dome growing Open House

Mar 052013
 
Farm Tour
Bigelow Brook Farm, LLC invites you to come and see our geodesic dome greenhouse where we grow produce using aquaponics – a unique combination of aquaculture and hydroponics.

We grow with a fraction of the water that typical gardens use and don’t use any chemical fertilizers or pesticides!		 RobT
Tomatoes Open house is Friday, April 19th through Sunday the 21st, 12:00pm – 5:00pm.  Feel free to stop in!
Scheduled tours are in the mornings.  Register for a guided
tour at http://www.BigelowBrook.com/tours
Bigelow Brook Farm is a proud member of The Aquaponics Association and chairs the northeast branch for the association.
These tours are part of the national “Tour de Tanks” where growers throughout the country showcase their systems.  For more information, please visit

http://www.AquaponicsAssociation.org

 TourDeTanks
BBFLogo 335 Westford RoadEastford, CT 06242
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Domerama can help with your geodesic event dome

Feb 272013
 

dcons

Many groups and corporations find, or will find, that event domes can become very expensive propositions. What is less known is how they can obtain the same value for a much lower cost, simply by getting information from different sources.

Domerama can help your group or organization, in the same way we help thousands of do-it-yourself types build their greenhouses, shelters, even yurts.

We offer consulting help for those looking to use events domes.

  • Engineering
  • Dome design and customization
  • Geodesic dome projection liners and projection services
  • Construction of domes
  • Overall project management assistance

We help you avoid costly decisions and to assist you in making informed ones.

We offer consulting help for those looking to use events domes. We help you avoid costly decisions and to assist you in making informed ones. This is not a free service, but with what Domerama brings, our consulting cost will pay for itself multiple times, in terms of saving money, saving time, reduced hassles and needed resources.

If you are interested, please contact us with a general description of your project, and we will happily and promptly reply.

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