Regnard
Benoit Regnard, Plaisir FR
Patent application number | Description | Published |
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20100206028 | LOCK-ACTUATING KEY WITH IMPROVED IMPACT RESISTANCE - A key having one end secured to a yoke mounted between in a casing to turn about a pivot axis between a position in which the key is retracted inside the casing and a position in which the key is extended, and a control pushbutton mounted in a housing of the yoke so as to be constrained to pivot therewith and so as to slide between a position for holding the yoke at least in the retracted position, and a position for releasing the yoke for pivoting, the control pushbutton having at least one stud received in a groove of the housing, the groove including an inlet segment that opens out via a first end in an outer face of the yoke and that opens out via a second end in a terminal segment, forming an angle therewith, the terminal segment extending along the pivot axis. | 08-19-2010 |
Benoit Regnard, St Germain De La Grange FR
Patent application number | Description | Published |
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20140130957 | LEAK-PROOF FASTENING DEVICE - The present invention pertains to a washer ( | 05-15-2014 |
Benoit Regnard, Saint Germain De La Grange FR
Patent application number | Description | Published |
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20160083109 | METAL FASTENER - The invention relates to a metal fastener that makes it possible to ensure an electrically conductive surface along the entire thickness of structural elements to be assembled. The fastener thereby comprises a head and a smooth shank extending along an axis of revolution, characterized in that the shank comprises at least one conductive portion and one lubricating portion disposed along the axis of revolution of the fastener along at least one length of the shank. The inventive fastener makes it possible to ensure a conductive surface in the entire thickness of the structure in which it is installed. | 03-24-2016 |
Stephan Regnard, Brussels BE
Patent application number | Description | Published |
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20150060150 | MASS BALANCING DRILL BIT DESIGN METHODS AND MANUFACTURING - One disclosed method includes generating a design model for a drill bit, the design model including one or more blades and channels, determining a rotational axis of the design model, dividing the design model into a plurality of unitary volume parallelepipedic elements distributed over at least a portion of the design model, determining a material density and mass of each unitary volume parallelepipedic element and using the material density and mass of each unitary volume parallelepipedic element to calculate a total mass of the design model, calculating a location of an inertia axis of the design model, determining a resulting centrifugal force of the design model upon applying a given angular velocity to the design model and using at least a portion of the total mass and the inertia axis, and modifying the design model to compensate for the resulting centrifugal force and thereby generating a modified design model. | 03-05-2015 |