Industry | Sewing Machines |
---|---|
Predecessor | Warren, Wheeler & Woodruff |
Founded | 1853 |
Defunct | 1905 |
Fate | Acquired by Singer Corporation |
Headquarters | 1853-1856: Watertown, Connecticut 1856-1905: Bridgeport, Connecticut , United States |
Wheeler & Wilson was an American company which produced sewing machines. The company was started as a partnership between Allen B. Wilson and Nathaniel Wheeler after Wheeler agreed to help Wilson mass-produce a sewing machine he designed. [1] The two launched their enterprise in the early 1850s, and quickly gained widespread acclamation for their machines' designs. [1] Both Wheeler and Wilson died in the late 19th century, resulting in the company's sale to the Singer Corporation. [1] Shortly after, the Singer Corporation phased out Wheeler & Wilson's designs. [1] The company sold a total of nearly 2,000,000 sewing machines during its existence. [1]
Throughout the late 1840s, Allen B. Wilson traveled throughout the United States as a journeyman, and conceived the idea for a sewing machine in 1847, unaware that it had already been invented. [2] [3] By 1848, Wilson moved to Pittsfield, Massachusetts, and began creating drawings for a sewing machine, before eventually beginning construction one on February 8, 1849. [2] [3] By April 1, 1849, Wilson completed his prototype, which he sold for $200. [3] Using this money, Wilson acquired a patent for his sewing machine on November 12, 1850, which differed from existing models in that with each movement it inserted two stitches instead of one. [2] [3]
Nathaniel Wheeler, who had previously met Wilson while on a business trip in 1849, met with Wilson again in August 1851. [1] Wheeler contracted Wilson to produce 500 sewing machines for Wheeler's existing business in Watertown, Connecticut: Warren, Wheeler & Woodruff. [1] [4] During this time, Wilson filed a patent for his machines' rotating hook and its four-motion feed. [2] In October 1853, Wheeler and Wilson used $160,000 to officially relaunch their enterprise as the Wheeler & Wilson Manufacturing Co. [1] [4] Wheeler incorporated the company with Alanson Warren, who served as its first president, and George P. Woodruff, who served as the company's first secretary and treasurer. [5] The other general offices of the company were held for many years by Isaac Holden as vice-president, William H. Perry as general superintendent, secretary and treasurer, and Frederick Hurd as secretary and treasurer. [5] Wheeler served as the company's General Manager, and became the company's President in 1855 following Warren's resignation. [4] [5]
The company began producing these sewing machines in Watertown, producing 3,000 units before relocating to Bridgeport to take advantage of the city's superior transportation links, communication links, and a larger facility size. [1] [3] [4] [6] Here, the firm occupied a facility which formerly belonged to the Jerome Clock Company. [4]
By 1859, the company had the most sewing machine sales in the United States. [2] The company's capital stock was increased in July, 1859, to $400,000, and June 29, 1864, the company was granted a special charter by the Connecticut state government, and the capital stock was further increased to $1.000,000. [5] During this time, the company's sales grew exponentially, from just over 21,000 units in 1859, to nearly 130,000 twelve years later. [2] Allen Wilson died in Woodmont, Connecticut on April 29, 1888. [1] [3] Nathaniel Wheeler continued to serve as the company's General Manager and President until his death. [5] Wheeler died in Bridgeport on December 31, 1893. [1] [4] After Nathaniel Wheeler's death, his son, Samuel Wheeler, succeeded to the presidency. His official associates were George M. Eames, vice-president, and Newton H. Hoyt. secretary and treasurer. [5]
By 1905, Wheeler & Wilson were employing about 2,000 hands at their facility in Bridgeport. [5] Singer Corporation took over the Wheeler and Wilson Manufacturing Company in 1905. [1] [6] After the acquisition, Singer continued to promote Wheeler and Wilson machines for a number of years, [1] and continued producing their No. 9 model sewing machine under its own brand name until at least 1913. [6]
The following table shows the company's unit sales by year: [2]
Year | 1853 | 1859 | 1867 | 1871 | 1873 | 1876 |
---|---|---|---|---|---|---|
Sales | 799 | 21,306 | 38,055 | 128,526 | 119,190 | 108,997 |
The company won a number of Prize Medals, including at the 1861 Industrial Exposition in Paris, [1] [6] the 1862 International Exhibition of London, [1] [6] the Exposition Universelle, Paris 1868, the 1878 Exposition Universelle, [6] and 1889 Exposition Universelle. [6]
At the 1873 Vienna World's Fair, Wheeler & Wilson was the only sewing machine company to be awarded the Grand Medals of Progress and of Merit. [7]
According to advertisements run by the company, other awards they received include the Gold Medal of Honour of the American Institute of New York, in September 1873, the Gold Medal at Maryland Institute in October, and a Silver Medal (the highest premium for "Stitching Leather") at the Georgia State Fair in November 1873. [8] [9]
In July 1874, the jury awarded the First Prize, a silver cup, on account of the "ease of working, the little noise, speed of executing work, and durability of the sewing machines made by the Wheeler & Wilson Manufacturing Company.", at the Bury Agricultural Show in August 1874 the first prize, at the Manchester and Liverpool Agricultural Show on September 10, 1874 the Society's Silver Medal for "excellence of manufacture, progress and novelty in mechanism, and superiority of work done by it." and at the Cheshire Agricultural Society's Show in Warrington on September 23, 1874 the first prize.[ citation needed ]
Allen B. Wilson filed two important patents for Wheeler & Wilson's sewing machines: the rotating hook and the four-motion feed. [2] His first machine formed a lock stitch by means of a curved needle on a vibrating arm above the cloth plate, and a reciprocating two-pointed shuttle traveling in a curved race below the plate. The feed motion was obtained by the two metal bars which are seen intersecting above the shuttle race. The lower bar, called the feed bar, had teeth on its upper face, and by means of a transverse sliding motion it moved the cloth, which was placed between the two bars, the desired distance, as each stitch was made. [2]
In 1851 Wilson patented the rotating hook, which performed the functions of a shuttle by seizing the upper thread and throwing its loop over a circular bobbin containing the under thread. [2] This simplified the construction of the machine by getting rid of the reciprocation motion of the ordinary shuttle, and contributed to make a light tool silent running machine, eminently adapted to domestic use. [2]
In 1852 Wilson patented his four-motion feed, which, as its name indicates, had four distinct motions: two vertical and two horizontal. [2] The machines' feed bar is first raised, then carried forward, then dropped, and finally gets drawn back by a spring to its original position. [2] This machine used the curved needle and embodies the rotating hook and the four-motion feed. [2]
A sewing machine is a machine used to sew fabric and materials together with thread. Sewing machines were invented during the first Industrial Revolution to decrease the amount of manual sewing work performed in clothing companies. Since the invention of the first sewing machine, generally considered to have been the work of Englishman Thomas Saint in 1790, the sewing machine has greatly improved the efficiency and productivity of the clothing industry.
Watertown is a town in Litchfield County, Connecticut, United States. The population was 22,105 at the 2020 census. The ZIP codes for Watertown are 06795 and 06779. It is a suburb of Waterbury. The urban center of the town is the Watertown census-designated place, with a population of 3,938 at the 2020 census.
A lockstitch is the most common mechanical stitch made by a sewing machine. The term "single needle stitching", often found on dress shirt labels, refers to lockstitch.
Elias Howe Jr. was an American inventor best known for his creation of the modern lockstitch sewing machine.
An overlock is a kind of stitch that sews over the edge of one or two pieces of cloth for edging, hemming, or seaming. Usually an overlock sewing machine will cut the edges of the cloth as they are fed through, though some are made without cutters. The inclusion of automated cutters allows overlock machines to create finished seams easily and quickly. An overlock sewing machine differs from a lockstitch sewing machine in that it uses loopers fed by multiple thread cones rather than a bobbin. Loopers serve to create thread loops that pass from the needle thread to the edges of the fabric so that the edges of the fabric are contained within the seam.
Nathaniel Wheeler was an American manufacturer and legislator.
The Merrow Sewing Machine Company, best known for inventing the overlock sewing machine, is a manufacturer of sewing machines. After the explosion of his gunpowder mill in 1837, in 1838 J.M. Merrow built a knitting mill on the same site. The company developed crocheting machines for its own use and by 1887 evolved to design, build and market sewing machines exclusively. During its early decades it was organized as a partnership under various names: established in 1838 as Joseph M. Merrow & Sons by J. Makens Merrow, then Pitkin, Merrow, & Co., renamed Merrow Manufacturing Co. in 1857, then Merrow and Millard in 1863, J.B. Merrow and Sons in 1870, and incorporated as The Merrow Manufacturing Company in 1893. Originally all of its manufacturing was done at facilities in Merrow, Connecticut, and then in Hartford, Connecticut, after 1894. The company is currently based in Fall River, Massachusetts.
Henry Alonzo House was an American inventor who developed machinery and processes that have had a lasting impact on several industries.
A feed dog is a movable plate which pulls fabric through a sewing machine in discrete steps between stitches.
Allen Benjamin Wilson (1823–1888) was an American inventor famous for designing, building and patenting some of the first successful sewing machines. He invented both the vibrating and the rotating shuttle designs which, in turns, dominated all home lockstitch sewing machines. With various partners in the 19th century he manufactured reliable sewing machines using the latter shuttle type.
The United States provided many inventions in the time from the Colonial Period to the Gilded Age, which were achieved by inventors who were either native-born or naturalized citizens of the United States. Copyright protection secures a person's right to his or her first-to-invent claim of the original invention in question, highlighted in Article I, Section 8, Clause 8 of the United States Constitution, which gives the following enumerated power to the United States Congress:
To promote the Progress of Science and useful Arts, by securing for limited Times to Authors and Inventors the exclusive Right to their respective Writings and Discoveries.
The Singer Model 27 and later model 127 were a series of lockstitch sewing machines produced by the Singer Manufacturing Company from the 1880s to the 1960s.. They were Singer's first sewing machines to make use of "vibrating shuttle" technology. Millions were produced. They are all steel and cast iron, and were built before the advent of planned obsolescence, and so they were designed to be repaired rather than replaced. Consequently many remain today, some in collections and others still in service. In company literature they were called "the woman's faithful friend the world over".
A vibrating shuttle is a bobbin driver design used in home lockstitch sewing machines during the second half of the 19th century and the first half of the 20th century. It supplanted earlier transverse shuttle designs, but was itself supplanted by rotating shuttle designs.
A zigzag stitch is variant geometry of the lockstitch. It is a back-and-forth stitch used where a straight stitch will not suffice, such as in reinforcing buttonholes, in stitching stretchable fabrics, and in temporarily joining two work pieces edge-to-edge.
The rotary hook or rotating hook is a bobbin driver design used in lockstitch sewing machines since the 19th century. It triumphed over competing designs because it can run at higher speeds with less vibration. Rotary hooks and oscillating shuttles are the two most common bobbin drivers in use today.
Throughout history, lockstitch sewing machines have used a variety of methods to drive their bobbins so as to create the lockstitch.
The Nathaniel Wheeler Memorial Fountain is located in Bridgeport, Connecticut at the intersection of Fairfield and Park avenues. The fountain was built in 1912–1913 and was added to the National Register of Historic Places on April 4, 1985. The fountain consists of four elements: a central bronze figure of a mermaid rising out of a polished granite pool and three individually ornamented polished granite watering troughs at the angles of the triangular parcel of land raised above the street. The mermaid holds aloft a lamp in her right hand, and a baby in her left. Its tail is wrapped around two dolphins, and the faces of four babies appear in relief around the rim of the pool. The three surrounding troughs are each adorned with individualized figures.
The White Sewing Machine was the first sewing machine from the White Sewing Machine Company. It used a vibrating shuttle bobbin driver design. For that reason, and to differentiate it from the later White Family Rotary that used a rotary hook design instead, it came to be known as the "White Vibrating Shuttle" or "White VS". In 1879 it cost USD50 to US$125 depending on which table or cabinet it was to be mounted in. The White VS continued in production, with improvements, until the early 1900s.
The Davis Sewing Machine Company began in 1868 in Watertown, New York, and moved to Dayton, Ohio, around 1890.
Kimball & Morton were a Glasgow-based manufacturer of domestic and industrial sewing machines active between 1867 and 1955.
Media related to Wheeler & Wilson at Wikimedia Commons