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Judson's most noteworthy invention, a chain-lock fastener, was the precursor to the modern zipper which he developed and invented in 1891. [5] Judson is generally recognized as the inventor of the zipper. [6] He also invented a "clasp-locker" automation production machine that made his fastener device inexpensively. [7]
Judson is sometimes given credit as the inventor of the zipper, but his device was not used in clothing. The Universal Fastener Company moved to Hoboken, New Jersey, in 1901, reorganized as the Fastener Manufacturing and Machine Company. Gideon Sundbäck, a Swedish-American electrical engineer, was hired to work for the company in 1906. Good ...
Talon was the first slide fastener, a/k/a zipper, manufacturing company. It was founded in 1893 as the Universal Fastener Company, manufacturing hookless fasteners for shoes. In 1913 it moved to Meadville, Pennsylvania, becoming the first manufacturer of zippers. The company flourished through the 1960s when it is estimated that seven out of ...
In 1893, Whitcomb Judson came up with an improvement of Howe's prototype which was basically a hook-and-eye shoe fastener. Even though his invention wasn't a practical zipper per se, Judson is still referred to as the father/inventor of the zipper.
Marc Jorgenson, Canada – engineer, inventor and musician; Anatol Josepho (1894–1980), patented the first coin-operated photo booth called the "Photomaton" in 1925; Marjorie Joyner (1896–1994), U.S. – Permanent wave machine; Whitcomb Judson (1836–1909), U.S. – zipper
Whitcomb L. Judson was an American mechanical engineer from Chicago who was the first to invent, conceive of the idea, and to construct a workable zipper. [35] Using a hook-and-eye device, Judson intended for this earliest form of the zipper to be used on shoes.
In other projects Wikidata item; ... Whitcomb L. Judson (1843–1909), American inventor of the zipper; James Whitcomb Riley (1849–1916), ...
The structural integrity of CLASP buildings are strong and robust, the design being based on; strong concrete foundations, metal framing supports and concrete cladding give the building a unlimited lifetime timeframe (with small maintenance carried out). It is these design fundamentals of CLASP that can allow buildings to last over a hundred years.