Rig (sailing) explained

A sailing vessel's rig is its arrangement of masts, sails and rigging.^[1] Examples include a schooner rig, cutter rig, junk rig, etc.^[2] A rig may be broadly categorized as "fore-and-aft", "square", or a combination of both. Within the fore-and-aft category there is a variety of triangular and quadrilateral sail shapes. Spars or battens may be used to help shape a given kind of sail. Each rig may be described with a sail plan—formally, a drawing of a vessel, viewed from the side.

Modern examples of single-person sailing craft, such as windsurfers, iceboats, and land-sailing craft, typically have uncomplicated rigs with a single sail on a mast with a boom.

Introduction

In the English language, ships were usually described, until the end of the eighteenth century, in terms of their type of hull design. Using the type of rig as the main type identifier for a vessel became common only in the nineteenth century.^[3] This is illustrated by the terminology for ships in the large fleet of colliers that traded to London from the coal ports of the Northeast of England (of which was a well-known example). Many of these full-rigged ships (square rigged on all of three masts) had the hull type "bark"another common classification was "cat". In the second half of the eighteenth century, the square sails on the mizzen were often eliminated. The resulting rig acquired the name of the hull type: initially as "bark" and soon as "barque". This explains the Royal Navy's description of Endeavour as a "cat-built bark".

Design

Each rig may be described with a sail plan—a drawing of a vessel, viewed from the side, depicting its sails, the spars that carry them and some of the rigging that supports the rig.^[4] By extension, "sail plan" describes the arrangement of sails on a vessel.^{[5] [6]} A well-designed sail plan should be balanced, requiring only light forces on the helm to keep the sailing craft on course. The fore-and-aft center of effort on a sail plan is usually slightly behind the center of resistance of the hull, so that the sailing craft will tend to turn into the wind if the helm is unattended.^[7] The height of the sail plan's center of effort above the surface is limited by the sailing craft's ability to avoid capsize, which is a function of its hull shape, ballast, or hull spacing (in the case of catamarans and trimarans).^[8]

Types of rig

• Fore-and-aft rig features sails that run fore and aft (along the length of the sailing craft), controlled by lines called "sheets", that changes sides, as the bow passes through the wind from one side of the craft to the other. Fore-and-aft rig variants include:
  • Bermuda rig (also known as a Marconi rig) features a three-sided mainsail.
  • Gaff rig features a four-sided mainsail with the upper edge made fast to a spar called a gaff.^[9]
  • Spritsail rig features a four-sided mainsail with the aft upper corner supported by a diagonal spar, called a sprit, whose lower end meets the mast near the foot of the sail.
  • Lateen rig features a three-sided sail set on a long yard, mounted at an angle on the mast and running in a fore-and-aft direction.
  • Crab claw sail (also known as Oceanic sprit or Oceanic lateen) features a three-sided sail with spars on both the foot and the head. It's either mastless, supported by a "prop", or mounted on removable or fixed masts.
  • Tanja sail (also known as canted square/rectangular sail, balance lugsail, or boomed lugsail) features a four-sided sail with spars on both the foot and the head. It's mounted on removable or fixed masts.
• Square rig uses square sails as the major sails on a vessel. It is common for square rigged vessels to include some fore and aft sails, such as staysails. A mast may be referred to as a square rigged mast where square sails predominatethis would differentiate from other masts on the same vessel being fore-and-aft rigged, for example in a barque.
  Square sails are generally suspended from yards which, when at rest, are at right angles ("square") to the centre-line of the vessel. This differentiates them from fore-and-aft sails, which are aligned along the centre-line when at rest.^[10] Operationally, this means that square sails always present the same surface of the sail to the wind when propelling a vessel forward: they have a front and a back. Fore-and-aft sails can have either of their surfaces facing the wind when in use. Hence either vertical edge of a square sail may be the front (when sailing to windward) but fore-and-aft sails always have the same vertical edge at the front.

Types of sail

Each form of rig requires its own type of sails. Among them are:

• A staysail (pronounced stays'l) is a fore-and-aft sail whose leading edge (or luff) is hanked to a stay.
• A headsail is any sail forward of the foremost mast on a sailing boat. It is usually a fore-and-aft sail, but on older sailing ships would include a square-sail on a bowsprit.^[11]
• A jib is a headsail that is set in front of any other headsails, or in modern usage, may be the only headsail. It may be hanked to a stay, used in roller reefing or set flying (as in the more traditional cutter rigs).^[12] In a large vessel with many headsails, you may, for example, find a flying jib, outer-jib, inner-jib and then the fore-staysail.^[13]
• A genoa is a large jib that increases area by extending rearward of the mast.
• A spinnaker is a full sail of light material for use when sailing downwind in light airs. When in use, the jib or genoa would be lowered.
• A gennaker is a sail that is a cross between a genoa and a spinnaker.
• A mainsail ("mains'l") is a sail attached to the main mast. The principal types include:
  1. A square-rig mainsail is a square sail attached at the bottom of the main mast.
  2. A Bermuda-rig mainsail is a triangular sail with the luff attached to the mast with the foot or lower edge generally attached to a boom.
  3. A gaff-rig mainsail is a quadrilateral sail whose head is supported by a gaff.
  4. A spritsail-rig mainsail is a quadrilateral sail whose aft head is supported by a sprit.
• A lug sail is an asymmetric quadrilateral sail suspended on a spar and hoisted up the mast as a fore-and-aft sail.
• A mizzen sail is a small triangular or quadrilateral sail at the stern of a boat.
• A steadying sail is a mizzen sail on motor vessels such as old-fashioned drifters and navy ships (such as). The sail's prime function is to reduce rolling rather than to provide drive.

European and American vessels

Ships that sailed from Europe and the Americas could be categorized in a variety of ways, by number of masts and by sailing rig.

Single-masted sailing vessels include the catboat, cutter and sloop. Two-masted vessels include the bilander, brig, brigantine, ketch, schooner, snow, and yawl. Three-masted vessels include the barque, barquentine, polacre and full-rigged ship. Luggers could have one or two masts and schooners could have two or more masts.

Square-rigged masts

A three-masted vessel has, from front to back, a foremast, mainmast and mizzenmast. A two-masted vessel has a mainmast, the other being a foremast or mizzen. Ships with more than three masts may simply number them or use another scheme, as with the five-masted Preussen.

On a square-sailed vessel, the sails of each mast are named by the mast and position on the mast. For instance, on the mainmast (from bottom to top):

• main course
• main topsail
• main topgallant ("t'gallant")
• main royal
• main skysail
• main moonraker.

On many ships, sails above the top (a platform just above the lowest sail on the fore, main and mizzens masts) were mounted on separate mast segments—"topmasts" or "topgallant masts"—held in wooden sockets called "trestletrees". These masts and their stays could be rigged or struck as the weather conditions required, or for maintenance and repair.^[14]

In light breezes, the working square sails would be supplemented by studding sails ("stuns'l") out on the ends of the yardarms. These were called as a regular sail, with the addition of "studding". For example, the main top studding sail.

Between the main mast and mizzen as well as between main mast and foremast, the staysails between the masts are named from the sail immediately below the highest attachment point of the stay holding up that staysail. Thus, the mizzen topgallant staysail can be found dangling from the stay leading from above the mizzen (third) mast's topgallant sail (i.e., from the mizzen topgallant yard) to at least one and usually two sails down from that on the main mast (the slope of the top edge of all staysail lines runs from a higher point nearer the stern to a lower point towards the bow).

The jibs (the staysails between the foremast and the bowsprit) are named (from inner to outer most) fore topmast staysail (or foretop stay), inner jib, outer jib and flying jib. Many of the jibs' stays meet the foremast just above the fore topgallant. A fore royal staysail may also be set.

Austronesian and East Asian vessels

See also: Austronesian vessels. Austronesian rigs include what are generally called crab claw (also misleadingly called the "oceanic lateen" or the "oceanic sprit") and tanja rigs. They were used for double-canoe (catamaran), single-outrigger (on the windward side), or double-outrigger boat configurations, in addition to monohulls.^{[15] [16]} These rigs were independently developed by the Austronesian peoples during the Neolithic, beginning with the crab claw sail at around 1500 BCE. They are used throughout the range of the Austronesian Expansion, from Maritime Southeast Asia, to Micronesia, Island Melanesia, Polynesia, and Madagascar.

Crab claw

See main article: Crab claw sail.

See also: Proa. There are several distinct types of crab claw rigs, but unlike western rigs, they do not have fixed conventional names. Crab claw sails are rigged fore-and-aft and can be tilted and rotated relative to the wind. They evolved from V-shaped perpendicular square sails in which the two spars converge at the base of the hull. The simplest form of the crab claw sail (also with the widest distribution) is composed of a triangular sail supported by two light spars (sometimes erroneously called "sprits") on each side. They were originally mastless, and the entire assembly was taken down when the sails were lowered.^[17]

The need to propel larger and more heavily laden boats led to the increase in vertical sail. However this introduced more instability to the vessels. In addition to the unique invention of outriggers to solve this, the sails were also leaned backwards and the converging point moved further forward on the hull. This new configuration required a loose "prop" in the middle of the hull to hold the spars up, as well as rope supports on the windward side. This allowed more sail area (and thus more power) while keeping the center of effort low and thus making the boats more stable. The prop was later converted into fixed or removable canted masts where the spars of the sails were actually suspended by a halyard from the masthead. This type of sail is most refined in Micronesian proas which could reach very high speeds. These configurations are sometimes known as the "crane sprit" or the "crane spritsail".

Another evolution of the basic crab claw sail is the conversion of the upper spar into a fixed mast. In Polynesia, this gave the sail more height while also making it narrower, giving it a shape reminiscent of crab pincers (hence "crab claw" sail). This was also usually accompanied by the lower spar becoming more curved.^[18]

Micronesian, Island Melanesian, and Polynesian single-outrigger vessels also used the canted mast configuration to uniquely develop shunting.^[17] In shunting vessels, both ends are alike, and the boat is sailed in either direction, but it has a fixed leeward side and a windward side. The boat is shunted from beam reach to beam reach to change direction, with the wind over the side, a low-force procedure. The bottom corner of the crab claw sail is moved to the other end, which becomes the bow as the boat sets off back the way it came. The mast usually hinges, adjusting the rake or angle of the mast. The crab claw configuration used on these vessels is a low-stress rig, which can be built with simple tools and low-tech materials, but it is extremely fast. On a beam reach, it may be the fastest simple rig.

Tanja

See main article: Tanja sail. The conversion of the prop to a fixed mast in the crab claw sail led to the much later invention of the tanja sail (also known variously and misleadingly as the canted square sail, canted rectangular sail, boomed lugsail, or balance lugsail). Tanja sails were rigged similarly to crab claw sails and also had spars on both the head and the foot of the sails; but they were square or rectangular with the spars not converging into a point. They are generally mounted on one or two (rarely three or more) bipod or tripod masts, usually made from thick bamboo.^{[19] [20]} The masts have curved heads with grooves for attaching the halyards. The lower part of two of the bamboo poles of the mast assembly have holes that are fitted unto the ends of a cross-wise length of timber on the deck, functioning like a hinge. The forward part of the mast assembly had a forelock. By unlocking it, the mast can be lowered across the ship.

Despite the similarity of its appearance to western square rigs, the tanja is a fore-and-aft rig similar to a lugsail. The sail was suspended from the upper spar ("yard"), while the lower spar functioned like a boom. When set fore-and-aft, the spars extend forward of the mast by about a third of their lengths. When running before the wind, they are set perpendicular to the hull, similar to a square rig.^[21] The sail can be rotated around the mast (lessening the need for steering with the rudders) and tilted to move the center of pull forward or aft. The sail can even be tilted completely horizontally, becoming wing-like, to lift the bow above incoming waves. The sail is reefed by rolling it around the lower spar.^[22]

In addition to the tanja sails, ships with the tanja rigs also have bowsprits set with a quadrilateral headsail, sometimes also canted as depicted in the Borobudur ships.^[21] In the colonial era, these were replaced by triangular western-style jibs (often several in later periods), and the tanja sails themselves were slowly replaced with western rigs like gaff rigs.^[22]

Junk

See main article: Junk rig.

See also: Djong and Junk (ship). The oldest undisputed depiction of the junk rig is from the Bayon temple of Angkor Thom, Cambodia, which shows a ship with a keel and a sternpost and identifies it as Southeast Asian.^{[23] [24]} Historians Paul Johnstone and Joseph Needham suggest an Austronesian (specifically Indonesian) origin of the rig.^{[25] [26] [27]} Junk rigs were adopted by the Chinese by around the 12th century.^[28] Iconographic remains show that Chinese ships before the 12th century used square sails.^[29] It also further diffused into other East Asian shipbuilding traditions, notably Japan.^[30]

In its most traditional form the junk rig is carried on an unstayed mast (i.e. a mast without shrouds or stays, supported only on the step at the keelson and the partners); however, standing rigging of some kind is not uncommon. It is typical to run the halyards (lines used to raise and lower the sail) and sheets (lines used to trim the sail) to the companionway on a junk-rigged boat. This means that typical sailhandling can be performed from the relative safety of the cockpit, or even while the crew is below deck.

Junk sails are typically carried on a mast which rakes (slants) forward a few degrees from vertical. This causes the sail to swing outwards, absent wind pushing it, which makes the use of a preventer (a line to keep the sail extended) unnecessary.

South Asian and Middle Eastern vessels

See main article: Dhow and Felucca.

Dhow

Unlike European ships, South Asian and Middle Eastern vessels are not named based on the type of rigging, but are named based on hull shapes. All of them are rigged similarly, and thus most of these vessels are classified as dhows in European terminology. Dhows are believed to have originated from India. They have loose-footed quadrilateral settee sails (sometimes also fully triangular lateen sails). The sails could not be reefed, instead two main sails were usually carried by the ship, one for night and bad weather, and another for daytime and fair weather. The yard was usually very long in comparison to the actual length of the boat, and they are sometimes made of two pieces of timber joined together by a strengthening piece. The halyard was threaded into two holes on the yard to prevent it slipping along the length. The mast was slotted into a mast step fitted over the deck.^[31] .

Gallery

Presented alphabetically by section:

Square

With square sails on every mast

Combination

With some masts having exclusively fore-and-aft sails

See also

• Glossary of nautical terms (A-L)
• Glossary of nautical terms (M-Z)
• Kite rig

Further reading

• Book: Bolger, Philip C. . 103 Sailing Rigs "Straight Talk" . Gloucester, Maine . Phil Bolger & Friends, Inc . 1998 . 0-9666995-0-5.
• Book: Moore. Sir Alan Hilary. Sir Alan Hilary Moore, 2nd Baronet . Nance. R. Morton. Robert Morton Nance. Last days of mast & sail : An Essay in Nautical Comparative Anatomy. Clarendon Press, Oxford. 1925. 26571876M.

Notes and References

1. Web site: Rig. 2023. Merriam-Webster Dictionary. 2023-04-15. the distinctive shape, number, and arrangement of sails and masts of a ship or to fit out with rigging.
2. Book: Kemp, Dixon . A Manual of Yacht and Boat Sailing . 1882 . H. Cox . 559 . en.
3. Book: MacGregor . David R . Merchant Sailing Ships 1775-1815: Sovereignty of Sail . 1985 . Conway Maritime Press . London . 0-85177-323-0.
4. Web site: 2023 . Sail plan . Collins English Dictionary.
5. Book: Folkard, Henry Coleman . Sailing Boats from Around the World: The Classic 1906 Treatise . 2012 . Courier Corporation . 9780486311340 . Dover Maritime . 576.
6. Book: Committee, Cruising Club of America Technical . Desirable and Undesirable Characteristics of Offshore Yachts . 1987 . W. W. Norton & Company . 978-0-393-03311-3 . 161 . en.
7. Book: Royce, Patrick M.. Royce's Sailing Illustrated. 1997. ProStar Publications. 978-0-911284-07-2. 74. en.
8. Book: Killing. Steve. Yacht Design Explained: A Sailor's Guide to the Principles and Practice of Design. Hunter. Douglas. 1998. W. W. Norton & Company. 978-0-393-04646-5. 153. en.
9. Book: Leather, John . The Gaff Rig Handbook: History, Design, Techniques, Developments . 2001-01-11 . WoodenBoat Books . 978-0-937822-67-8 . en.
10. Book: Underhill . Harold . Masting and Rigging, the Clipper Ship and Ocean Carrier . 1946. 1938 . Brown, Son and Ferguson, Ltd . Glasgow . 1958 reprint.
11. Web site: Definition of 'headsail' . Collins . 12 May 2019.
12. Book: Cunliffe . Tom . Tom Cunliffe. Hand, Reef and Steer: Traditional Sailing Skills for Classic Boats. 2016 . Adlard Coles . 978-1472925220 . second.
13. Book: Underhill . Harold . Masting and Rigging, the Clipper Ship and Ocean Carrier . 1946. 1938 . Brown, Son and Ferguson, Ltd . Glasgow . 1958 reprint.
14. Book: Nares, George Strong . Seamanship: Including Names of Principal Parts of a Ship . 1897 . Griffin & Company . 106–256 . en.
15. Book: Horridge . Adrian . Canoes of the Grand Ocean . Archaeopress . 2008 . 9781407302898 . Di Piazza . Anne . BAR International Series 1802 . Origins and Relationships of Pacific Canoes and Rigs . 22 October 2019 . Pearthree . Erik . http://adrian-horridge.org/downloads/Pacific%20canoes.pdf . https://web.archive.org/web/20200726112653/http://adrian-horridge.org/downloads/Pacific%20canoes.pdf . 26 July 2020 . live . vanc.
16. Lacsina . Ligaya . 2016 . Examining pre-colonial Southeast Asian boatbuilding: An archaeological study of the Butuan Boats and the use of edge-joined planking in local and regional construction techniques . Flinders University . PhD.
17. Campbell . I.C. . 1995 . The Lateen Sail in World History . Journal of World History . 6 . 1 . 1–23 . 20078617.
18. Horridge . Adrian . April 1986 . The Evolution of Pacific Canoe Rigs . The Journal of Pacific History . 21 . 2 . 83–99 . 10.1080/00223348608572530 . 25168892.
19. Book: Burningham . Nick . Angela. Schottenhammer . Shipping of the Indian Ocean World . Early global interconnectivity across the Indian Ocean world. Volume 2: Exchange of ideas, religions, and technologies . 2019 . Palgrave Macmillan . 9783319978017 . 141-202.
20. Book: Chaudhuri . K.N. . Trade and Civilisation in the Indian Ocean: An Economic History from the Rise of Islam to 1750 . 1985 . Cambridge University Press . 9780521285421 . 152.
21. Book: Paine . Lincoln . The Sea and Civilization: A Maritime History of the World . 2013 . Knopf Doubleday Publishing Group . 9780307962256 . 286.
22. Book: Pelras . Christian . The Bugis . 1997 . John Wiley & Sons . 9780631172314 . 258-259.
23. Book: Burningham, Nick. 2019. Early Global Interconnectivity across the Indian Ocean World, Volume II: Exchange of Ideas, Religions, and Technologies. Cham. Palgrave Macmillan. Schottenhammer. Angela. 141–201. Chapter 6: Shipping of the Indian Ocean World.
24. Inglis. Douglas Andrew. 2014. The Borobudur Vessels in Context. Texas A&M University.
25. Book: Jett . Stephen C. . Ancient Ocean Crossings: Reconsidering the Case for Contacts with the Pre-Columbian Americas . 2017 . University of Alabama Press . Tuscaloosa . 9780817319397.
26. Needham, Joseph (1971). Science and Civilisation in China: Volume 4, Physics and Physical Technology, Part III: Civil Engineering and Nautics. Cambridge: Cambridge University Press.
27. Book: Johnstone, Paul. The Seacraft of Prehistory. Harvard University Press. 1980. 978-0674795952. Cambridge.
28. Book: L. Pham, Charlotte Minh-Hà . Asian Shipbuilding Technology . UNESCO Bangkok Asia and Pacific Regional Bureau for Education . 2012 . 978-92-9223-413-3 . Bangkok . 20–21 . 15 February 2023.
29. Needham, Joseph (1971). Science and Civilisation in China: Volume 4, Physics and Physical Technology, Part III: Civil Engineering and Nautics. Cambridge: Cambridge University Press.
30. Crossley, Pamela Kyle, Daniel R. Headrick, Steven W. Hirsch, Lyman L. Johnson, and David Northrup. "Song Dynasty." The Earth and Its Peoples. By Richard W. Bulliet. 4th ed. Boston: Houghton Mifflin, 2008. 279–80. Print.
31. Web site: History and Construction of the Dhow . Nabatea.net . 21 May 2024.