spinning wheel
| Dictionary: spinning wheel |
n.
An apparatus for making yarn or thread, consisting of a foot-driven or hand-driven wheel and a single spindle.
| Britannica Concise Encyclopedia: spinning wheel |
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| How Products are Made: How is a spinning wheel made? |
Background
A spinning wheel is a machine used to turn fiber into thread or yarn. This thread or yarn is then woven as cloth on a loom. The spinning wheel's essential function is to combine and twist fibers together to form thread or yarn and then gather the twisted thread on a bobbin or stick so it may be used as yarn for the loom. The action is based on the principle that if a bunch of textile fibers is held in one hand and a few fibers are pulled out from the bunch, the few will break from the rest. However, if the few fibers are pulled from the bunch and at the same time are twisted the few pulled out will begin to form a thread. If the thread is let go it will immediately untwist, but if wound on a stick or bobbin it will remain a thread that can be used for sewing or weaving.
Many different kinds of fibers can be spun on a simple spinning wheel, including wool and hairs; bast fibers which come from below the surface of a plant stem including flax (linen), hemp, jute, ramie, and nettle; and seed fibers, particularly cotton. Each of these fibers vary tremendously in length of staple, quality and strength. Different fibers require different kinds of pieces or bobbins placed on the spinning wheel and even call for spinning wheels of different size or configuration in order to spin the specific fiber more efficiently.
History
Man has been spinning fibers for centuries as woven cloth cannot be made without producing yarn or thread. Ancient Egyptians processed flax into linen and surely used the earliest form of spinning apparatus, known as the drop spindle. It was simply a weighted stick onto which yarn was wound with a twist as the spindle was dropped downward, pulling thread from the pack of unspun fibers. There is uncertainty about the development of the spinning wheel as some argue it was developed in China as early as the sixth century for silk and ramie spinning, while others believe it may have developed later in India for cotton. Early Eastern spinning wheels are similar in that the base sat on the ground and the wheel was powered by hand or hand crank. These wheels were rimless and soon spread to the West.
Western examples throughout the Middle Ages were both rimless and had a hoop rim. By the fourteenth century the hoop rim spinning wheels appear to overtake others in popularity. The Flemish who settled in the British Isles brought with them strong textile traditions and with that brought improvements on the traditional spinning wheel. Great wheels with very large driving wheels were known by the sixteenth century in the British Isles for the spinning of wool solely. Endless small variations were made in the wheel to ensure efficient spinning until the present, as some modern manufacturers do not reproduce old examples precisely but make their own wheels that are attractive and effective.
Spinning wheels were one of the first craft tools to be supplanted by modern machinery. Richard Arkwright, an English industrialist, developed a method for machine spinning cotton by the mid-eighteenth century and American Samuel Slater stole the system and brought it to Rhode Island. He began Slater Mill, which began producing the first machine-spun thread in the New World with machinery driven by water power. As machine-spun yarn was commercially available from that point on, fewer used spinning wheels unless it was for small, domestic needs such as the production of wool yarn for knitting from a farmer's sheep fleece. Today, spinning wheels are carved and turned of hardwood and used only by craftspeople for handspun yarns. Spinning wheels are entirely obsolete as large manufacturers use industrial spinners to produce millions of yards of thread or yarn each day. Perhaps fewer than 1,000 spinning wheels are made yearly for hobbyists within Canada and the Untied States today.
Raw Materials
The raw materials for most modern spinning wheels are wood, wood glue, clear lacquer or urethane, and some bits and pieces of metal, primarily used as wire on the wheel. Some spinning wheels use a bit of brass as well. The wheels made on the North American continent are made of native hardwoods. Most consumers are looking for spinning wheels that not only work well but are keepsakes. For this reason, spinning wheels are made from at least three different woods depending on the aesthetic preferences of the purchaser. Maple is easy to acquire and a fine wood to turn and shape but it is not a beautiful wood nor does it take a stain well. For that reason, spinning wheel manufacturers also offer more expensive wheels in woods considered "prize" such as cherry and walnut. Cherry, from the eastern United States, fine-textured and straight-grained. It is favored by many because it may be light pink when first cut but turns a mahogany red as it is exposed to air. It is easily worked and makes a fine spinning wheel; however, it is more difficult to get and more expensive than maple. Walnut, generally American black walnut, is a dark purple-brown in color when applied with a clear lacquer. It works easily and produces a spinning wheel much prized for is beautiful wood.
Design
While there is no single spinning wheel design, the iconic spinning wheel has three splayed legs, a foot treadle connected to a footman that attaches to the driving wheel thus making the wheel go around. A horizontal stock is the wooden plank or bed upon which most of the apparatus rests upon. The driving wheel is perhaps the most prominent feature of the spinning wheel and resembles a wheel with turned spindles in the center (thread is pulled along the outside of that wheel). The bobbin is a grooved wooden spool that fits on the flyer, which gathers the yarn after it is spun. The bobbin fits into a U-shaped flyer (a bracket with hooks on it that guide the yarn onto the bobbin and keep the yarn evenly distributed on it). The distaff and distaff arm hold a batch of unspun fiber. These are only the primary parts of the spinning wheel as the typical wheel has well over 100 small parts that fit together to ensure quality spinning.
The Manufacturing
Process
There are different kinds of spinning wheels available for purchase, from small portable spinning wheels, to those that are exact reproductions of early American pieces, to variations on the tradition spinning wheel sometimes referred to as the Saxony Wheel. This essay will concentrate on the manufacture of a modern variation of the traditional wheel with a medium-size driving wheel. It is important to note that this type of wheel is constructed of at least 150 parts; the basic parts' manufacture will only be described below.
- First, planks of wood enter the factory. These are pieces bundled into planks that 6 in (15.2 cm) wide and about 10 ft (3 m) long. These planks are then rough cut into smaller shapes that can be accommodated on the machinery that will be used to further shape the pieces into more finished parts. The rough cuts are generally performed by hand. Larger pieces are cut into shapes that will become major parts such as the wheel rim, the turnings within the wheel, or the treadle.
- These rough cut pieces are then clamped into a mechanized cutter and shaper that is computer controlled. This machine is referred to as a computer numerically controlled (CNC) machine, and it may route, shape, or turn these rough cuts into appropriate shapes for the spinning wheel. This machine enables the manufacture to create high quality routed, shaped, or turned pieces for the spinning wheel with minimal hand work. A computer-based program, often programmed by the manufacturer, is fed into the machine and the program moves the machine in order to produce the pieces. A single machine may be reprogrammed numerous times in order to produce many different parts for the same product. The hub of the wheel or other parts may all be made on the CNC router, shaper, or lathe.
- The wood pieces are removed from the CNC machine and grouped. These parts are rough to the touch and must be sanded smooth. The turnings (resembling the spokes on a wheel) are put into a lathe and sanded. The flat pieces are then run through either four or five different sanders. These sanders are both mechanical belt and drum sanders, each rendering the piece smoother and readying it for a finish.
- Some spinning wheels are sold unfinished and are now ready for assembly. Others have a finish applied to the surface. Those that will be finished may be stained, but most consumers prefer the beauty of the natural wood. Thus, a clear lacquer finish may be sprayed upon the surface. A water-based lacquer is applied to these pieces using a spray.
- All parts are gathered together by hand and readied for assembly. The operator uses furniture-grade wood glue on parts that peg or mortise and tenon through one another. Many of the largest joints are bolted together as well as glued. Sometimes the manufacturer only performs partial assembly, meaning that large parts are assembled together such as the wheel-including the rim, the hub, and spokes or turnings. Thus, the majority of the assembly may be performed by the consumer or the retailer, as shipping an assembled spinning wheel is quite impractical. It is spindly and unstable and could be smashed in shipping. Furthermore, this shipping could be extremely costly as a product of significant volume can be expensive to ship. Thus, spinning wheel manufacturers may well leave the assembly to others at point-of-sale. The company provides simple instructions for the store or consumer.
Quality Control
The quality control issues primarily revolve around the grade of the wood used in the manufacture of the product. North American manufacturers generally negotiate for the delivery of wood from reliable lumber suppliers who can provide goods free of knots, bug damage, and are of the minimum lengths desired. A Canadian manufacturer receives wood from the most economical and reliable suppliers and thus gets different types of woods from all over the continent, from Pennsylvania to distant parts of Canada.
The CNC machine renders parts that are only as good as the programming fed into it. Thus, the manufacturer ensures that the programmer produces a program that is fully compatible with economical manufacture and easy assembly. However, when the program is successfully designed and implemented, the machine is able to make the requisite pieces almost without end. The machines are extraordinarily reliable. Human operator error (problems with clamping or securing the pieces in the machine) or poor-quality pieces of wood (knots or other imperfections) may pose problems but are generally very minor.
Byproducts/Waste
There is a fair amount of wood waste after pieces are routed, shaped, and turned on the CNC machine. A manufacturer may sell the wood chips to a chipboard manufacturer for composite wood for engineered wood furniture. The wood waste may also go for saw-dust bedding for animals.
Furniture and other wood products manufacturers are quite concerned about harmful vapors or effluvia that result from wood finishing of their products. Thus, spinning wheel manufacturers may prefer to use the water-based finishes as they do not leave harmful volatile organic compounds, otherwise known as VOCs, the use of which is monitored by the federal government.
The Future
The manufacture of spinning wheels is currently an interesting combination of traditional designs and streamlined manufacturing. The North American manufacturers do not make more than a few thousand pieces a year, and share the market primarily with New Zealanders who have a long history of wool processing and spinning wheel craftsmanship. Thus far, these North American manufacturers do not feel threatened by foreign competitors. However, the viability of the manufacture of wheels rests solely on the vitality of the craft of spinning by those whose hobbies include textile production. Spun yarn is easily available to all cheaply and easily and does not require the use of what is essentially an out-moded spinning wheel in order to acquire spun yarn.
Where to Learn More
Books
Baines, Patricia. Spinning Wheels: Spinners and Spinning. New York: Charles Scribners Sons, 1977.
Nylander, Jane. Our Own Snug Fireside. New Haven: Yale University Press, 1994.
Other
Lendrum Web Page. December 2001. <http://fox.nstn.ca/~lendrum/instructions.htm>.
Oral interview with Gord Lendrum, owner of Lendrum Spinning Wheels. Odessa, Ontario. October 2001.
"Spinning Wheel." Encylopedia Britannica CD Edition. Encyclopedia Britannica, Inc., 1994-1998.
[Article by: Nancy EV Bryk]
| WordNet: spinning wheel |
Note: click on a word meaning below to see its connections and related words.
The noun has one meaning:
Meaning #1:
a small domestic spinning machine with a single spindle that is driven by hand or foot
| Wikipedia: Spinning wheel |
For the computer animation commonly found on the Internet, see Spinning wheel (animation). For the Blood, Sweat & Tears song, see Spinning Wheel (song).
Library of Congress collection
A spinning wheel is a device for spinning thread or yarn from natural or synthetic fibers.
Contents |
History
The earliest clear illustrations of the spinning wheel come from Baghdad (drawn in 1237), China (c. 1270) and Europe (c. 1280), and there is evidence that spinning wheels had already come into use in both China and the Islamic world during the eleventh century.[2] According to Irfan Habib, the spinning wheel was introduced into India from Iran in the thirteenth century.[2]
The spinning wheel replaced the earlier method of hand spinning with a spindle. The first stage in mechanizing the process was mounting the spindle horizontally so it could be rotated by a cord encircling a large, hand-driven wheel. The great wheel is an example of this type, where the fiber is held in the left hand and the wheel slowly turned with the right. Holding the fiber at a slight angle to the spindle produced the necessary twist.[3] The spun yarn was then wound onto the spindle by moving it so as to form a right angle with the spindle. This type of wheel, while known in Europe by the 14th century, was not in general use until later. It ultimately was used there to spin a variety of yarns until the beginning of the 19th century and the mechanization of spinning.
In general, the spinning technology was known for a long time before being adopted by the majority of people, thus making it hard to fix dates of the improvements. In 1533, a citizen of Brunswick is said to have added a treadle, by which the spinner could rotate her spindle with one foot and have both hands free to spin. Leonardo da Vinci drew a picture of the flyer, which twists the yarn before winding it onto the spindle. During the 16th century a treadle wheel with flyer was in common use, and gained such names as the Saxony wheel and the flax wheel. It sped up production, as one needn't stop spinning to wind up the yarn.
In the 18th century, the Industrial Revolution had a big effect on the spinning industry by beginning to mechanize the spinning wheel. Lewis Paul and John Wyatt first worked on the problem in 1738, patenting the Roller Spinning machine and the flyer-and-bobbin system, for drawing wool to a more even thickness. Using two sets of rollers that traveled at different speeds, yarn could be twisted and spun quickly and efficiently. However, they did not have much financial success. In 1771, Richard Arkwright used waterwheels to power looms for the production of cotton cloth, his invention becoming known as the water frame.
These improvements continued and culminated in the first rotor or open end spinning mills in the United States in the 1780s and 1790s. More modern spinning machines use a mechanical means to rotate the spindle, as well as an automatic method to draw out fibers, and devices to work many spindles together at speeds previously unattainable.[4] Newer technologies that offer even faster yarn production include friction spinning, an open-end system, and air jets.[5]
Types of spinning wheels
Numerous types of spinning wheels exist, including the great wheel also known as walking wheel or wool wheel for rapid long draw spinning of woolen-spun yarns; the flax wheel, which is a double-drive wheel used with a distaff for spinning linen; saxony and upright wheels, all-purpose treadle driven wheels used to spin worsted-spun yarns; and the charkha, native to Asia. Until the acceptance of rotor spinning wheel, all yarns were produced by aligning fibers through drawing techniques and then twisting the fiber together. With rotor spinning, the fibers in the roving are separated, thus open end, and then wrapped and twisted as the yarn is drawn out of the rotor cup.
Hand-powered wheels
Hand powered spinning wheels are powered by the spinner turning a crank for flywheel with their hand, as opposed to pressing pedals or using a mechanical engine.
Charkha
The tabletop or floor charkha is one of the oldest known forms of the spinning wheel. The charkha works similarly to the great wheel, with a drive wheel being turned by hand, while the yarn is spun off the tip of the spindle.The floor charkha and the great wheel closely resemble each other. With both, the spinning must stop in order to wind the yarn onto the spindle.[citation needed]
The charkha (etymologically related to Chakra) was both a tool and a symbol of the Indian independence movement. The charkha, a small, portable, hand-cranked wheel, is ideal for spinning cotton and other fine, short-staple fibers, though it can be used to spin other fibers as well. The size varies, from that of a hardbound novel to the size of a briefcase, to a floor charkha. Mahatma Gandhi brought the charkha into larger use with his teachings. He hoped the charkha would assist the peoples of India achieve self-sufficiency and independence, and so used the charkha as a symbol of the Indian independence movement and included it on earlier versions of the Flag of India.[citation needed]
Great wheel
The great wheel was one of the earlier types of spinning wheel. The fiber is held in the left hand and the wheel slowly turned with the right. This wheel is thus good for using the long-draw spinning technique, which requires only one active hand most of the time, thus freeing a hand to turn the wheel. The great wheel is usually used to spin wool, and can only be used with fiber preparations that are suited to long-draw spinning.
The great wheel is usually over 5 feet in height. The large drive wheel turns the much smaller spindle assembly, with the spindle revolving many times for each turn of the drive wheel. The yarn is spun at an angle off the tip of the spindle, and is then stored on the spindle. To begin spinning on a great wheel, first a leader (a length of waste yarn) is tied onto the base of the spindle and spiraled up to the tip. Then the spinner overlaps a handful of fiber with the leader, holding both gently together with the left hand, and begins to slowly turn the drive wheel clockwise with the right hand, while simultaneously walking backward and drawing the fiber in the left hand away from the spindle at an angle. The left hand must control the tension on the wool to produce an even result. Once a sufficient amount of yarn has been made, the spinner turns the wheel backward a short distance to unwind the spiral on the spindle, then turns it clockwise again, and winds the newly made yarn onto the spindle, finishing the wind-on by spiraling back out to the tip again to make another draw.
Treadle wheel
This type of wheel is powered by the spinner's foot rather than their hand or a motor. The spinner sits and pumps a foot treadle that turns the drive wheel via a crankshaft and a connecting rod. This leaves both hands free for drafting the fibers, which is necessary in the short draw spinning technique, which is often used on this type of wheel. The old-fashioned pointed distaff spindle is not a common feature of the treadle wheel. Instead, most modern wheels employ a flyer-and-bobbin system which twists the yarn and winds it onto a spool simultaneously. These wheels can be single- or double-treadle; which is a matter of preference and does not affect the operation of the wheel.
Double drive
The double drive wheel is named after its drive band, which goes around the spinning wheel twice. The drive band turns the flyer, which is the horse-shoe shaped piece of wood surrounding the bobbin, as well as the bobbin. Due to a difference in the size of the whorls (the round pieces or pulleys around which the drive band runs) the bobbin whorl, which has a smaller radius than the flyer whorl, turns slightly faster. Thus both the flyer and bobbin rotate to twist the yarn, and the difference in speed continually winds the yarn onto the bobbin. Generally the speed difference or "ratio" is adjusted by the size of the whorls and the tension of the drive band.
The drive band on the double drive wheel is generally made from a non-stretch yarn or twine; candlewick is also used.
Single drive
A single drive wheel has one drive band, that goes around the fly-wheel and the bobbin or the flyer. Most of the drive bands for single drive wheels are made from synthetic cord, which is elastic and does not slip easily on the wheel.
While the spinner is making new yarn, the bobbin and the flyer turn in unison, but when the spinner wants to wind the yarn onto the bobbin, the bobbin or the flyer slows down and thus the yarn winds on. The one part slows down because of the brake band, which loops over that element. The tighter the brake band is, the more pull on the yarn, because the more friction the bobbin has to overcome in order to turn in sync with the flyer.
Castle style
When the spindle and flyer are located above the wheel, rather than off to one side, the wheel is said to be a castle wheel. This type of wheel is often more compact, thus easier to store. Some castle wheels are even made to fold up small enough that they fit in carry-on luggage at the airport.
Notes
- ^ Deng, Yingke and Pingxing Wang. (2005). Ancient Chinese Inventions. 五洲传播出版社. ISBN 7508508378. Page 48.
- ^ a b Pacey, Arnold (1991) [1990]. Technology in World Civilization: A Thousand-Year History (First MIT Press paperback edition ed.). Cambridge MA: The MIT Press.
- ^ Spinning wheel. (2007). In Encyclopædia Britannica. Retrieved April 7, 2007, from Encyclopedia Britannica Online.
- ^ Encyclopedia Britannica Eleventh Edition article on spinning.
- ^ Cotton: Origin, History, Technology, and Production By C. Wayne Smith, Joe Tom Cothren. Page viii. Published 1999. John Wiley and Sons. Technology & Industrial Arts. 864 pages. ISBN 0471180459
See also
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Look up spinning wheel in Wiktionary, the free dictionary. |
External links
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Wikimedia Commons has media related to: Spinning wheels |
- The Spinning Wheel by Mary Bellis
- Yarn at enotes.com
- Spinning Cotton - with charkha diagram
- Spinning Wheel - Virtual Museum of Textile Arts
- Choosing a Spinning Wheel
- Free detailed plan for making wooden spinning wheel
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