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The ONRSII, the Office for Inventions

Innovative weapons systems for soldiers, wonderful vintage electrical appliances, inventors thrilled by their own incredible design ideas: come with us and delve into the fascinating archives of the ONRSII, the first ever "Office for Inventions" in the history of France!

Glass plate and paper print of a shot of the large electromagnet
Glass plate and paper print of a shot of the large electromagnet

© Cyril Frésillon / CNRS Images

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At the end of the First World War, the world of science was put to work to drive economic growth. Responding to research programmes launched in the public interest, the ONRSII became a vital link between the science laboratory and the factory. The French government wanted to take all the ingeniousness and inventiveness that had been drawn on to defend the nation and use it to drive the development of innovative domestic devices that would revolutionise the daily lives of the French.

Thus, in 1922, the ONRSII (the French National Office for Scientific and Industrial Research and Inventions) was set up. This was a national body encompassing every field of scientific research applied to further the development of France’s civil industries. Directed by Jules-Louis Breton, a member of the French Senate, the ONRSII was tasked with encouraging what we would now call Research & Development, assisting inventors and university institutes to undertake research and organise design studies needed for public services. Based in Meudon, at the pavillon Bellevue, it centralised a group of test laboratories (paints and varnishes, refrigerating machines, engines, etc.).

However, in the 1930s, the ONRSII suffered as a result of fallout from the financial crisis and the support of industrial unions waned until it disappeared altogether. The ONRSII was then closed down in 1938, to be replaced by the French National Centre for Applied Scientific Research (CNRSA), the forerunner of today’s CNRS.

Here you will find images from the archives of inventions dating back to the heady days of the inter-war industrial age. You’ll find photographs and films of some wonderfully unusual and old-fashioned devices, including the first ever life jackets, folding wheelbarrows and washing machines straight out of another era.

CNRS News Article

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Mask photographed on December 10th, 1922. Due to expanding industrialization, the number of deaths due to asphyxia was increasing steadily. Therefore, the ONSRII worked to ensure that all premises exposed to the threat of such accidents as well as all first aid stations had access to artificial respiration equipment, breathing masks, and oxygen tanks. "This was the only way to dramatically decrease the number of deaths by asphyxiation", according to the magazine Research and Inventions. René…

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Mask photographed on December 10th, 1922
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Démonstration du fonctionnement du piloteur Lender, appareil destiné à former les élèves pilotes au sol, pour qu'ils acquièrent les bons réflexes dans le maniement d'un avion. Un machiniste impulse des mouvements provoquant de fortes inclinaisons de l'appareil, et le pilote doit rapidement agir sur les commandes pour garder l'avion dans la position voulue.

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Piloteur (Le)
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On the Meudon Bellevue CNRS campus, you will find the first large instrument dedicated to fundamental research in France and in the world, the Large Electromagnet of the Academy of Sciences. It was imagined and designed by the physicist Aimé Cotton in 1928 and operated until the 1970s. Denis Guthleben, science historian, shares with us the various stages in the history of the large electromagnet, from the birth of the project before the 1914 war to its…

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Aimant d'Aimé, le premier grand instrument pour la science (L')
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The humoristic Strange Inventions series revisits the film archives of the National office for scientific research and inventions (ONRSI, the CNRS's ancestor, by exploring fake advertisements staging real inventions. This first episode presents a rosewood boat, a small vessel whose underwater screw is actuated by an above-head propeller!

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Air engine
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The large electromagnet was built for the Academy of Sciences, according to the plans drawn up by Professor Cotton and Mr. Mabboux, and with supporting funds from the National Pastor's Day subscription. After the machining phases carried out in the Saint-Ouen workshops of the French company Thomson-Houston, the 120-ton electromagnet was installed at the Office National des Recherches Scientifiques et Industrielles et des Inventions in Bellevue.

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Large electromagnet of the Academy of Sciences (The)
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In a military camp, the High Commission of Inventions observes an anti-barbed wire prototype designed by Mr. Boirault. Designed in 1914 and built in 1915, the Boirault machine is considered "the interesting ancestor of the tank". This invention by arts and crafts engineer Louis Boirault is probably one of the most extravagant proposals documented by the Inventions Department. With its height of several meters, its weight of 30 tons and its shape resembling a rib cage or a giant salad spinner,…

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Boirault No.1 anti-barbed-wire machine
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A bord d'une petite embarcation tirée par un remorqueur en rade de Toulon, Jules-Louis Breton et des membres du Comité technique de génie de la Direction des inventions expérimentent les lunettes sous-marines destinées à trouver un sous-marin en plongée à une vingtaine de mètres de profondeur (Texte issu du catalogue des Archives Françaises du Film).

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Lunettes sous-marines
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Sous le regard attentif et amusé des membres de la Commission supérieure de la Direction des Inventions installés dans une barque, un homme teste l'efficacité d'un costume insubmersible dans un étang. Soumis à l'autorité militaire ce vêtement doit permettre aux soldats de traverser un cours d'eau et d'en sortir sec. (Texte issu du catalogue des Archives Françaises du Film)

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Costume insubmersible
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Stator (partie fixe où tourne le rotor) d'un des groupes convertisseurs de 2 500 kilovoltampères (kVA), en montage à la centrale électrique, sur le site de l'Office national des recherches scientifiques et industrielles et des inventions (ONRSII) à Bellevue, Meudon, le 28 mars 1935. Extrait du livre Inventions 1915-1939 de Luce Lebart.

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Stator (partie fixe où tourne le rotor) d'un des groupes convertisseurs de 2 500 kilovoltampères (kV
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Acoustic helmet photographed on March 31st, 1936. In the mid-1930s, the ONRSII’s physics laboratory was working to improve their acoustic horns, these extended ears designed for army scouts. Georges Mabboux improved the horns’ walls, allowing for their acoustic reflection to gradually improve while their acoustic transmission decreased when moving from the wider opening towards the narrower one. The goal was to reduce background noise inside the horns and make them more efficient. On March 20th…

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Acoustic helmet photographed on March 31st, 1936
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Léonide Belovsoroff’s automobile direction indicator, photographed in December 1928. Developed before the use of blinking lights became widespread to indicate a change in direction, this indicator was intended to take the place of arm signals, which were the main turning indicator used at the time, as they still are for cyclists. The indicator was in the shape of a hand that was raised and lowered by a coil activated by an electrical system installed at the steering wheel. Extract from the book…

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Léonide Belovsoroff’s automobile direction indicator, photographed in December 1928
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Léonide Belovsoroff’s automobile direction indicator, photographed in December 1928. Developed before the use of blinking lights became widespread to indicate a change in direction, this indicator was intended to take the place of arm signals, which were the main turning indicator used at the time, as they still are for cyclists. The indicator was in the shape of a hand that was raised and lowered by a coil activated by an electrical system installed at the steering wheel. Extract from the book…

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Léonide Belovsoroff’s automobile direction indicator, photographed in December 1928
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Sight obstructing goggles, photographed on December 1926. The “metal shrapnel protector” was a pair of goggles used for ocular protec¬tion in times of peace. It was the result of research conducted during the war to protect soldiers and was directly inspired by a model developed in Great Britain in 1917 and in the United States. The goggles were composed of a chromed steel plate protected with “comfortable padding” and faste¬ned with clamped straps. This splinter fragment protection contained …

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Sight obstructing goggles, photographed in December 1926
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Sight obstructing goggles, photographed on December 1926. The “metal shrapnel protector” was a pair of goggles used for ocular protec¬tion in times of peace. It was the result of research conducted during the war to protect soldiers and was directly inspired by a model developed in Great Britain in 1917 and in the United States. The goggles were composed of a chromed steel plate protected with “comfortable padding” and faste¬ned with clamped straps. This splinter fragment protection contained …

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Sight obstructing goggles, photographed in December 1926
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Taxi equipped with Louis-Auguste Laurenceau’s pedestrian protection device, Mechanics Laboratory, September 23, 1924. "The device consists of a metal chassis cove¬red by a protective grate and rubber cylin¬ders serving as shock absorbers", explains the inventor. He goes on to summarize its operation as follows: "A standing pedestrian involved in a collision with a vehicle running at 20 or 30 kph is first hit at ankle height. . . . The individual thus loses his or her balance and falls to the…

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Taxi muni de l’anti-écraseur de Louis-Auguste Laurenceau, 23 septembre 1924
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Germain Panis’ apparatus for artificial respiration, photographed on April 26th,1923. The intern for the Public Hospitals of Paris Germain Panis developed what became known as the Panis apparatus for artificial respiration. It includes "an inclined metal frame to support the patient’s chest facing down-ward and a set of levers used to perform the necessary movements". The apparatus is activated using top-to-bottom movements. At a rhythm of fifteen movements per minute, it would "resuscitate"…

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Appareil pour effectuer le mouvement respiratoire de Germain Panis, 26 avril 1923

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