Tolbert Lanston

Tolbert Lanston (3 February 1844, Troy, Ohio – 18 February 1913) was the American founder of Monotype, inventing a mechanical typesetting system patented in 1887 and the first hot metal typesetter a few years later.[1]

Life

Tolbert Lanston was born in a poor family. He quit school at the age of 15, he was a volunteer in the Federal Army during the American civil war. Last rank was sergeant.

After 1865 he worked at the Pension-Department of the American Government. He worked with Seaton and Herman Hollerith (founder of IBM) on tabulating devices and invented an adding machine which was the first money-maker for Hollerith's company. Lanston's brother was a printer and evidently that connection caused his interest in automating the laborious task of hand-setting every letter in any or all texts. He resigned his post at the Pension office and devoted the remainder of his life to perfection of his machine. He created the idea but others perfected it and made the Lanston Monotype Machine Company successful. That includes J. Maury Dove, a coal merchant who became president of the company and remained there until his death in 1923, and John Sellers Bancroft, who was the mechanical genius behind the Monotype machine. The story is thoroughly developed in Tolbert Lanston and the Monotype: The Origin of Digital Typesetting.

The inventor

Although Lanston was an inventor, he had no education at all as an engineer.

He did start his inventions to create a type-setting machine, first with the financial help of Seaton, later from J. Maury Dove, coal-merchant in Washington.

Letters sent to the Patent-bureau with specifications sent at:

  • 30 September 1885, 3 July 1886
  • patent nr. 364.521 7 June 1887
  • patent nr. 364.525 7 June 1887

The idea was to make lead type for printing, with two machines, the first to produce two paper-tapes, these two paper-tapes controlling the second machine to produce the type. Lanston made a series of prototypes.

Development of the machine

John Sellers Bancroft of Sellers & Co in Philadelphia was asked to help with the development of the machine.

This man made a series of important improvements. A wedge to govern the width of the character. This wedge makes the same movement as the diecase with the matrices, in one direction. The matrices are ordered in the diecase, each row has only matrices for characters of the same width. The wedge controls the opening in the mould.

Compressed air was used to control the movements of the matrices above the mould of the machine.

This machine was capable to produce filled lines, by controlling the width of the spaces, with two extra wedges. The accuracy of the machine was 2000 parts in 1 inch.

The first commercial machines were available around 1897. These machines had only room for 132 matrices. A few of these machines were sent to England.

Later types had die-cases with 15*15 and 17*15 or even 16*17 matrices.[2]

gollark: I figure you could at least filter most static images on websites if you have software running on the actual device, though.
gollark: You would also need to compile a giant training set of porn...
gollark: It would drain a lot of battery at least.
gollark: Yes, but I don't think you could run a complex neural network at 60FPS.
gollark: The general idea seems pretty impractical though; I don't think you could reasonably detect all the ways audiovisual content might be transferred over HTTP and filter them in real time.

References

  1. Hopkins, Richard (2012). Tolbert Lanston and the Monotype: The Origin of Digital Typesetting. Tampa, Florida: University of Tampa Press. pp. Entire Book. ISBN 978-159732-100-6.
  2. Gerard A. Gelink, De Monotype, deel 1, uitvinding en constructie, Algemene Nederlandsche Typografen Bond, 1941
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