Collar beam

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Roof framing: element #5 are the collars
An old collar beam roof in the Netherlands. Image: Cultural Heritage Agency of the Netherlands

A collar beam or collar[1] is a horizontal member between two rafters and is very common in domestic roof construction. Often a collar is structural but they may be used simply to frame a ceiling. A collar beam is often called a collar tie but this is rarely correct. A tie in building construction is an element in tension rather than compression and most collar beams are designed to work in compression to keep the rafters from sagging.[2][3] A collar near the bottom of the rafters may replace a tie beam and be designed to keep the rafters from spreading, thus are in tension: these are correctly called a collar tie.

Etymology

Collar in general comes from Latin collare meaning neck. [4]

Collar beam roofs

The simplest form of roof framing is a common rafter roof. This roof framing has nothing but rafters and a tie beam at the bottoms of the rafters. The next step in the development of roof framing was to add a collar, called a collar beam roof. Collar beam roofs are suitable for spans up to around 18 feet (6 meters).[5]

Crown post roof framing

A crown post is a compression member, a post, in roof framing which carries a longitudinal beam called a crown plate. The crown plate in turn carries collar beams which help support and carry the rafters, thus collar beams are always found in crown post roof framing.

Arched brace roof

The arch brace truss is made by adding two braces between the rafters and collar. This puts the collar and the braces in tension.

References

  1. Ensminger, Robert F.. The Pennsylvania barn: its origin, evolution, and distribution in North America. Baltimore: Johns Hopkins University Press, 1992. 324. Print.
  2. Maginnis, Owen B.. Roof framing made easy: a practical and easily comprehended system, adapted to modern construction, for laying out and framing roofs, adapted to modern construction .... New York: O.B. Maginnis, 1896. 7. Print.
  3. Nicholson, Peter. Practical carpentry, joinery, and cabinet-making; being a new and complete system of lines, for the use of workmen: founded on accurate geometrical and mechanical principles, with their application in carpentry, to roofs, domes, centring, &c.; in joinery,. London: T. Kelly by J. Rider, 1826. 31. Print.
  4. Oxford English Dictionary Second Edition on CD-ROM (v. 4.0) Oxford University Press 2009
  5. Moncrieff, G. K.. The principles of structural design,. Chatham, Eng.: W. & J. Mackay & Co. [for] the Royal Engineers Institute, 1897-98. Print.
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