Millions of people worldwide have reason to be thankful that Swedish engineer Rune Elmqvist decided not to practice medicine. Although qualified as a doctor, he chose to invent medical equipment instead. In 1949, while working at Elema-Schonander (later Siemens-Elema), in Stockholm, he applied for a patent for the Mingograph, the first inkjet printer. Its movable nozzle deposited an electrostatically controlled jet of ink droplets on a spool of paper.
Rune Elmqvist qualified to be a physician, but he devoted his career to developing medical equipment, like this galvanometer. Håkan Elmqvist/Wikipedia
Elmqvist demonstrated the Mingograph at the First International Congress of Cardiology in Paris in 1950. It could record physiological signals from a patient’s electrocardiogram or electroencephalogram in real time, aiding doctors in diagnosing heart and brain conditions. Eight years later, he worked with cardiac surgeon Åke Senning to develop the first fully implantable pacemaker. So whether you’re running documents through an inkjet printer or living your best life due to a pacemaker, give a nod of appreciation to the inventive Dr. Elmqvist.
The world’s first inkjet printer
Rune Elmqvist was an inquisitive person. While still a student, he invented a specialized potentiometer to measure pH and a portable multichannel electrocardiograph. In 1940, he became head of development at the Swedish medical electronics company Elema-Schonander.
Before the Mingograph, electrocardiograph machines relied on a writing stylus to trace the waveform on a moving roll of paper. But friction between the stylus and the paper prevented small changes in the electrical signal from being accurately recorded. Elmqvist’s initial design was a modified oscillograph. Traditionally, an oscillograph used a mirror to reflect a beam of light (converted from the electrical signal) onto photographic film or paper. Elmqvist swapped out the mirror for a small, moveable glass nozzle that continuously sprayed a thin stream of liquid onto a spool of paper. The electrical signal electrostatically controlled the jet.
The Mingograph was originally used to record electrocardiograms of heart patients. It soon found use in many other fields. Siemens Healthineers Historical Institute
By eliminating the friction of a stylus, the Mingograph (which the company marketed as the Mingograf) was able to record more detailed changes of the heartbeat. The machine had three paper-feed speeds: 10, 25, and 50 millimeters per second. The speed could be preset or changed while in operation.
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An analog input jack on the Mingograph could be used to take measurements from other instruments. Researchers in disciplines far afield from medicine took advantage of this input to record pressure or sound. Phoneticians used it to examine the acoustic aspects of speech, and zoologists used it to record birdsongs. Throughout the second half of the 20th century, scientists cited the Mingograph in their research papers as an instrument for their experiments.
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