Jump to content

Brunsviga

From Wikipedia, the free encyclopedia

Brunsviga 15 Mechanical Calculator
Original Odhner-Arithmos-Typ-5

Brunsviga is a calculating machine company whose history goes back to 1892 with devices upgrading from mechanical to electrical thereafter. The firm Grimme & Natalis that manufactured the machines changed their name to Brunsviga Maschinenwerke A.G. in 1927.

Origins

[edit]

The Brusvinga device finds its roots in the arithmometer developed by Willgodt Theophil Odhner (1845–1905),[1][2] a Swedish engineer who emigrated to Russia for work purposes in 1868 or 1869 after having studied mechanics at the Royal Institute of Technology in Stockholm. Odhner was hired by his fellow Swede Ludvig Nobel (Albert Nobel's brother) who was the head of an arms factory.[2] His job there was to fix the so-called Thomas Arithmometers, named after their designer in the 1820s. The term arithmometer covered mechanical calculating devices that were able to perform all the four arithmetic operations. Odhner improved and simplified the expensive devices by implementing a different transmission system.[3][4]

Beginnings

[edit]

In 1878, as he tried to expand his business, Odhner partnered with Karl Königsberger, a commercial advisor and merchant in the guild of Saint-Petersburg. The latter filed patents in numerous countries including Germany with the German patent n° 7393.11 on 19 November 1878.[5] In 1892, one of the top executives of the German's sewing machine firm Grimme & Natalis bought Odhner's patent for his device.[5] His intention was to use the same production tools for both sewing and calculating machines. The patent included distribution rights in Germany, Belgium and Switzerland[5] and the calculating machines were launched under the brand's name "Brunsviga", in reference to the city of Braunschweig, where the firm Grimme & Natalis was based.[citation needed]

Types of Brunsviga calculating devices

[edit]

The first device, the "A" type, was launched in July 1892 under the name Brunsviga[5] and resembled Odhner's devices. Multiple modifications to its design as well as capabilities were made afterwards by the engineer Franz Trinks, who was then head executive of Brunsvinga. In the twenty years to follow, 89 German patents and 152 of other countries' were filed based on his inventions.[1] Some machines were now able to perform simultaneously multiple operations (not more than three), as did the Trinks-Triplex,[6] launched shortly before World War I whose 19 typing levers could display results as long as 20 numbers.[citation needed]

The launch of the Brunsviga Novas[7] occurred around 1925, the same year as that of the Brunsviga 13. In 1929, Franz Trinks developed his last model, the Brunsviga Dupla,[8] which happened to be electrical. He died in 1931.[citation needed]

In 1952 60 years after the first model, 60 different types were available on the market and the firm accounted for 265.000 sales.[5]

In 1952, Brunsviga Maschinenwerke AG employed a thousand people. Between 1926 and 1930, after launching Nova and type 13, 40,000 devices were produced equalling the production in numbers of nearly 30 years between 1892 and 1921.[3] According to Peter Faulstich[5] in his article, the name Brunsviga was used for fifty years to refer to calculating machines.

Reasons for success

[edit]

An adequate response to market needs

[edit]

In 1872, in a specialized journal, the conditions for calculating machines to meet market needs were written as follows: "If a reliable calculating machine could be manufactured to retail at a low price, say five dollars, with which addition, subtraction, multiplication, and division could be done, it would no doubt find a ready- sale, as all go-ahead business men want such a time-saver . . ."[9] By streamlining their production under the guidance of Herman Hoffmeister (1886–1930), Brunsviga was able to support mass production at reasonable cost of devices meeting market needs.[3] The company also worked on reducing the weight and dimensions of their final product to facilitate the dispatch by launching miniature series (A,B and J) or other compact models such as the Brunsviga 13, allowing them as well to reduce selling prices.[3] Simultaneously, in the early 1920s, numerous sectors such as Insurance companies, Statistics, Geodesy, Astronomy or Engineering[3] implemented the use of the calculating machine into their calculation processes. Even more broadly, every sector with a requirement for precise calculation processes found itself in need of calculating machines. The brutal population growth and even bigger demands in the matter of economical calculation required such calculations to be done quickly and at rational costs.[5]

A dense and international distribution network

[edit]
Maquina-de-calcular Brunsviga, 1912

The market penetration of the brand was accompanied by the filing of numerous patents. Before 1915, Germany alone accounted for more than a hundred patents, and 200 others were filed internationally. In 1906, Brunsviga's sales agents were based in London, Paris, Stockholm, Conception, Buenos Aires, São Paulo and Johannesburg. The company now had branch offices in the Netherlands and in Denmark.[3] In 1931, adding to the 30 offices in Germany, 90 more opened their doors in foreign countries[3]

Some efficient marketing strategies

[edit]
Brunsviga tagline, Brain of Steel

In 1909, the company introduced the tagline "the brain of steel" alongside an illustration from fellow Brunswick native mathematician Carl Friedrich Gauss. In the late 1920s, the graphist Günther Clausen (1885–1954) chose to modify the drawing of the head, and the tagline read "calculate everything".[3]

Alongside marketing strategies, the firm made use of specialized magazines[10] as well as the press to promote the use of calculating machines: the Manchester Guardian for instance, showed an image of a worker with his Brunsviga.[11] Artists too were sought to publish in the monthly company magazine. For the twenty year's anniversary of Brunsviga in 1912, a brochure was published under the title When calculating machines have a heart, whose author, Fritz Müller later republished it as a short story.[12] The painter and graphist from Brunswick, Karl Bock (1873–1940), created the cover of the brochure while Austrian artist August Mandlick (1860–1934) took care of the illustrations.[3] Lastly, the writer Abraham Halberthal (1881–1969), under the pseudonym A. Halbert, published short stories in the company monthly magazine to present the calculating machine.[3]

Notable scientists and collectors using the Brunsviga machine

[edit]

Many scientists worked with the Brunsviga. Amongst them, Enrico Fermi used it at the very beginning of his work on nuclear chain reaction,[13] also Karl Pearson,[14] Stephen Wilson'[15] and Sydney Holt.[16] Some Brunsviga machines can also be found in museums such as the model C at the Smithsonian.[citation needed] The Henri Poincaré Institute also owns one.[citation needed]

Decline

[edit]

In 1959, the company Olympia Werke took full control of Brunsviga Maschinenwerke AG. Shortly after, in 1962, most of the existing models (11S, 11E, 16E, 13BR, 18 RK, D 18 R, D13 R/1 D13 R2) saw their production stopped. The only ones remaining on the market up until 1963 were the 13RK, B20 and B183. The 13RM from the old range remained available up until 1964. The RT4 (1970–1971), which was made in Spain, was the last device launched by Olympia, but as a limited edition numbering only around 1500 copies.[17] In 1972, Olympia stopped for good the production of mechanical calculating devices.

References

[edit]
  1. ^ a b (de) Brunsviga-Gesichte 1892-1912 : 20 Jahre Rechenmaschinenfabrikation. 20 000 Brunsviga Rechenmaschinen verkauft 20000, Braunschweig, 1912., Moos am Bodensee, Verlag Greis, 2020, 36 p. (ISBN 978-3-941937-36-9)
  2. ^ a b Leipälä, Timo (September 2003). "The Life and Works of W.T. Odhner (Part I)". Archived from the original on 21 May 2023. Retrieved 21 January 2024.
  3. ^ a b c d e f g h i j (de) Jasmin Ramm-Ernst, Stahlgehirne : Mechanische Rechenmaschinen als eine neue Form von Technik (ca. 1850–1930) am Beispiel des Fabrikats Brunsviga, Stuttgart, Deutscher Apotheker, 2015, 283 p. (ISBN 978-3-7692-6531-6)
  4. ^ Leipälä, Timo (September 2003). "The Life and Works of W.T. Odhner (part II)" (PDF). Archived (PDF) from the original on 28 June 2011. Retrieved 23 January 2024.
  5. ^ a b c d e f g Peter, Faulstich. "Brunsviga (1892–1959). Mechanische Rechenmaschinen als Welterfolg". Zeitschrift für Unternehmensgeschichte (37 Jahre H2): 101–114.
  6. ^ "Brunsviga Trinks-Triplex Calculating Machine". americanhistory.si.edu. Archived from the original on 13 January 2024. Retrieved 23 January 2024.
  7. ^ "Cris' site on antique mechanical four-species calculators". www.crisvandevel.de. Archived from the original on 13 January 2024. Retrieved 23 January 2024.
  8. ^ "Brunsviga Dupla". www.arithmeum.uni-bonn.de. Archived from the original on 13 January 2024. Retrieved 23 January 2024.
  9. ^ "Calculating Machines". The Manufacturer and Builder: A Practical Journal of Industrial Progress. 4. New York: Western & Company: 264. 1872. Archived from the original on 23 April 2024. Retrieved 21 January 2024.
  10. ^ Geoffroy, L. (October 1928) [1 October 1928]. "Documentation générale sur l'outillage du Bureau moderne". Mon Bureau, le Magazine de l'Organisation Commerciale et Industrielle. Booklet176: 475–476. Archived from the original on 12 January 2024. Retrieved 21 January 2024.
  11. ^ "Talks with the Brunsviga Man". The Manchester Guardian: 7. 1911.
  12. ^ Müller-Partenkirchen, Fritz (1927). Als die Rechenmaschine ein Herz bekam. Waldorf-Astoria Zigarettenfabrik AG (published 1913).
  13. ^ Anderson, H.L. (1986). "Scientific Uses of the MANIAC" (PDF). Journal of Statistical Physics. 43 (5–6): 732. Bibcode:1986JSP....43..731A. doi:10.1007/BF02628301. S2CID 122676398. Archived (PDF) from the original on 12 January 2024. Retrieved 21 January 2024.
  14. ^ Stouffer, Samuel A. (1958). "Karl Pearson - An Appreciation on the 100th Anniversary of his Birth". Journal of the American Statistical Association. 53 (281): 23–27.
  15. ^ Wilson, Stephen (2013). Methods in Computational Chemistry. Springer (published 1987). ISBN 978-1489919854.
  16. ^ Beverton, Raymond J.H.; Holt. "On the Dynamics of Exploited Fish Populations" (PDF). Archived (PDF) from the original on 28 April 2023. Retrieved 21 January 2024.
  17. ^ "Brunsviga / Olympia". rechnen-ohne-strom - historische Rechenhilfen (in German). Archived from the original on 6 January 2024. Retrieved 23 January 2024.