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James Hartness

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James Hartness
58th Governor of Vermont
In office
January 6, 1921 – January 4, 1923
LieutenantAbram W. Foote
Preceded byPercival W. Clement
Succeeded byRedfield Proctor, Jr.
Personal details
Born(1861-09-03)September 3, 1861
Schenectady, New York
DiedFebruary 2, 1934(1934-02-02) (aged 72)
Springfield, Vermont
Political partyRepublican
SpouseLena Pond
ProfessionMachinist, toolmaker, inventor, manager, entrepreneur, governor

James Hartness (September 3, 1861 – February 2, 1934) was an American inventor; a mechanical engineer; an entrepreneur who mentored other inventors to develop their machine tool products and create a thriving industrial center in southeastern Vermont; an amateur astronomer who fostered the construction of telescopes by amateurs in his town; an early aviator who built one of Vermont’s first airports; and the 58th Governor of Vermont from 1921 to 1923.

Biographical

Hartness was born in Schenectady, New York, one of three sons. His family moved to Cleveland, Ohio in 1863 where his father was a foreman in local machine shops and Hartness attended public school. Hartness worked up through the ranks in machine shops in Connecticut before moving to Springfield, Vermont, where he had a brilliant career as an innovator of machine tools. He became one of the nation’s first aviators and became a one-term governor of the state of Vermont. He had two daughters, Anna and Helen. His daughter, Helen (Helen Hartness Flanders), was a noted folk song collector who married Ralph Flanders, a U.S. Senator from Vermont[1] Hartness died in Springfield in 1934. He is buried in the Summer Hill Cemetery in Springfield, not far from his mansion.

He built his Springfield home in 1904, which an example of shingle style architecture. An inn and restaurant since 1954, it is listed on the National Register of Historic Places for its connection to him.[2]

Engineering innovation and entrepreneurship

Hartness 3x36 flat turret lathe with cross sliding head, equipped for bar work.[3]
James Hartness with his most successful invention, the flat turret lathe, ca. 1920. Jones & Lamson publicity photo.
Bar work—Pieces made by a turret lathe from a long bar of stock.[3]
Patent drawings for Hartness screw-thread optical comparator.

At age 16, Hartness began his career in machine shops. At age 21 he became a foreman at the Winsted-Norway Bolt Company in Winsted, Connecticut. He moved in 1886 to Torrington, Connecticut to work as a tool-maker and foreman at the Union Hardware Company. His lifetime achievement of more than 100 patents began here with patents of locks, roller skates, and bicycle pedal mechanisms.

Hartness had an unpleasant experience at Union Hardware: he had been understandably naive about arranging for royalties on his patents, and the business owners chose not to help rectify the oversight. He did not get to share in the profits derived from the patents. In September 1888, after he had lost several weeks' work to illness, Union Hardware told him not to return.[4]

During the winter of 1888–1889, he worked briefly for several companies: Pratt & Whitney in Hartford, Connecticut; Eaton, Cole and Burnham Co. in Bridgeport, Connecticut, and a plant in Scottdale, Pennsylvania.[1][4] Roe (1937) surmised that Hartness developed the idea of the flat-turret lathe sometime before this period and sought a suitable machine tool company at which to build it. Only Ambrose Swasey of Warner & Swasey. saw the potential for success of Hartness' idea, reportedly saying "You will hear from that young man again, and from this 'Lazy Susan' of his".[4]

In April 1889 Hartness moved to Springfield, Vermont to become the superintendent at the struggling Jones and Lamson (J&L) Machine Company. He used his creative energy to revitalize the company. Here he found his chance to manufacture the flat-turret lathe, which increased efficiency and productivity and was especially well adapted to the burgeoning automobile industry.[1][5][6] The flat turret lathe improved upon earlier turret lathes via greater rigidity, allowing higher precision, higher speeds and feeds, and longer cuts. Hartness also developed an array of highly advanced tooling to complement the lathe, including improved roller bar feed and die head designs. All of these advantages allowed better parts to be made faster, and thus less expensively, which made the lathe highly desirable to manufacturers. This time, Hartness was prepared to defend his interest in his patent. He arranged with J&L to receive a $100 royalty on each machine.

Hartness changed J&L’s business model from making a wide variety of machines to order to specializing in the manufacturing and improving of this one product. With rapid acceptance of this machine tool, orders reached 10 units per day from the manufacturing sector. As a result, Hartness reportedly received up to $1,000 per day in royalties.[7] He also introduced appealing and informative catalogues to market the new Jones and Lamson products. Hartness acquired a large interest in J&L. He became manager in 1896 and president in 1901 until his retirement in 1933.[5]

In 1915 Hartness reluctantly decided to engage in “war business,” heeding his brother John’s pleas from the London office of J&L. During World War I Hartness, as a representative of American Society of Mechanical Engineers (ASME), became Chairman of the National Screw-Thread Commission, the mission of which was to create international standards for the measurement and sizing of screw threads.

Hartness discouraged modernizing of the Hartness Flat Turret Lathe. Nevertheless, it remained a very successful product until after Hartness's retirement, when a new J&L turret lathe model by John Lovely finally replaced it.[5]

Hartness’s interest in the measurement and standardization led to his invention of an optical device that allowed the profile of small parts to be illuminated and compared with their desired outline. Traditionally, mechanics used a mechanical gauge to assess whether screws were to specifications. Hartness employed his knowledge of optics and magnification to devise a much more practical optical method for measurement.[7] The Hartness Screw-Thread Comparator was his crowning achievement in the profitability of J&L.[5] Today optical comparators are a common form of equipment in many machine shops.

The 1921 edition of the ASME mechanical catalog and directory[8] showed that J&L offered several models of Hartness flat turret lathe, an automatic chucking lathe, an automatic die, a screw-thread comparator, and the Fay automatic lathe. J&L had offices in Springfield, Vermont, San Francisco, California, and London, England, plus agents in five other countries.[8]

In 1929, Hartness and Russell W. Porter patented[9] an optical comparator, a device that applies the principles of optics to the inspection of manufactured parts by projecting the magnified silhouette of a part onto a screen where its dimensions and geometry of the part are measured against prescribed limits.[10] This contribution stemmed from Hartness' work as the Chairman of the U.S. National Screw-Thread Commission and from his familiarity with optics in astronomy and telescope-building. The Hartness Screw-Thread Comparator was for many years a profitable product for J&L. The optical comparator remains a standard means inspection of many kinds of parts.[11]

Mentor of machine tool entrepreneurs

Hartness encouraged talented inventors in his employ at J&L to strike out on their own as entrepreneurs. These included three Springfield companies and one Windsor, Vermont company:

  • Edwin R. Fellows, founder of the Fellows Gear Shaper Company
  • William L. Bryant, founder of the Bryant Chucking Grinder Company
  • Fred P. Lovejoy, founder of the Lovejoy Tool Company
  • George O. Gridley, founder of the National Acme Company

The companies started by these men helped make Springfield and Windsor a prosperous manufacturing region, thanks not to its access to raw materials or markets, but due to a pool of talented engineers and machinists. Joseph Roe ranked Hartness in the class of Henry Maudslay and Elisha K. Root for his mentorship of a younger generation of machine tool builders.[12]

Encouragement of smarter management with better relationship to workers

His son-in-law, Ralph Flanders, reported that Hartness examined “some of the elements which go into making workmen both contented and productive” in his book The Human Factor in Works Management.[5] His Hartness Turret Lathe Manual starts with the statement, "Since the machine is only an implement, it cannot be considered a thing entirely apart from the man. In fact, the man is the greater part. The personal welfare of the operator must be considered. This is something more than the man’s relation to the machine. It includes an equally important phase—his relationship to other men and to his environment in general."[3]

In a sense Hartness was responding to the era's enthusiastic fervor for scientific management, which Hartness and many others felt did not adequately address the psychology of how to manage employees as human beings and maintain their respect.

Affiliations, degrees, and medals

James Hartness with Charles Lindbergh at Springfield, Vermont's airport in July, 1927. Image courtesy of Springfield Art & Historical Society.

Hartness was an active member of the following engineering, scientific, and arts societies:

His life achievements were recognized with honorary degrees from the University of Vermont (ME in 1910[14] and LLD in 1920[14]) and Yale University (MA in 1914).[13][14] The Franklin Institute awarded Hartness the Edward Longstreth Medal in 1921,[14][15] recognizing his invention of the Hartness screw thread comparator.[1] In the same year the American Philosophical Society and the City Trusts of Philadelphia[14] awarded the John Scott Medal to Hartness for the flat turret lathe, citing its usefulness in making artillery.[16]

Aviation

Hartness first flew in Germany in 1913 in a hydrogen-filled airship, designed by Ferdinand von Zeppelin. In 1914, Hartness learned to fly a 35 horsepower (26 kW) Wright Flyer near Garden City, New York. He obtained his pilot's license from the Aero Club of America.[17] He encouraged, and served as president of, the Vermont Aero Club. He donated the land for the Springfield Aerodrome to the state, establishing the first airfield in Vermont, now known as "Hartness State Airport".

After his trans-Atlantic flight, Charles Lindbergh toured the United States in the Spirit of St. Louis to promote aviation. He landed in Springfield on July 26, 1927 in his visit to Vermont and spoke at a large gathering at the airport. Hartness hosted Lindbergh at his home.[7]

Crowd attending celebration of Charles Lindbergh's arrival at Springfield, Vermont's airport in July, 1927. Image courtesy of Springfield Art & Historical Society.

Astronomy

Hartness's Equatorial-Plane Turret Telescope located at the Hartness Mansion in Springfield, Vermont, ca. 1912.

Hartness’s interest in optics and astronomy led to his development of a telescope mount with the revolving dome on an equatorial plane. An additional feature of this telescope, which still stands at the former Hartness Mansion, was that the optics of the telescope passed through a lens in the wall of the dome. This allowed the observer to stay warm in winter. (Conventional telescopes were often contained within domes that opened an aperture for the telescope to gain exposure both to the sky and the ambient air.) The success of this patent led to more telescope activities and commissions.[7] With Hartness's encouragement and financial support, Russell W. Porter initiated the Springfield Telescope Makers Club. The club still celebrates their annual Stellafane gathering in Springfield.[18]

Governor of Vermont

Hartness was a one-term governor of Vermont, elected in 1920 and serving from 1921 to 1923. He campaigned on the issue of enticing Vermonters to stay in state rather than seek employment elsewhere.[1] He also promised an improved transportation system and more manufacturing to supplement the traditional agricultural economy. He won the election by a wider margin in the state than Warren Harding, who carried Vermont in the presidential race that year.[7]

References

  1. ^ a b c d e Springfield Reporter 1934
  2. ^ Charles Ashton (1978). "NRHP nomination for Harrington House". National Park Service. Retrieved July 9, 2016. with photos from 1978
  3. ^ a b c Hartness 1910.
  4. ^ a b c Roe 1937, pp. 10–11.
  5. ^ a b c d e Flanders 1961.
  6. ^ Roe 1937, pp. 34–36.
  7. ^ a b c d e Wicks 1999.
  8. ^ a b American Society of Mechanical Engineers 1921, pp. 450–454.
  9. ^ Hartness & Porter 1929
  10. ^ Roe 1937, pp. 43–45.
  11. ^ Smith 2002
  12. ^ Roe 1937, p. 101.
  13. ^ a b c Roe 1937, p. 50.
  14. ^ a b c d e f g h i j k Roe 1937, pp. 53–54.
  15. ^ Franklin Institute 1921, p. 82
  16. ^ New York Times 1921
  17. ^ Roe 1937, pp. 89–90
  18. ^ Willard 2015

Bibliography

Books by Hartness

Biography


Other cited sources

Further reading

Political offices
Preceded by Governor of Vermont
1921–1923
Succeeded by