Viscous damped crash sensor unit with inertia switch
First Claim
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1. A viscous damped inertial sensor operable to sense velocity changes in excess of a predetermined magnitude for actuating an impact responsive system, the sensor comprising:
- A. housing means;
B. means defining a sealed chamber containing gas and defining a substantially cylindrical bore, said chamber being disposed within said housing means;
C. means for resiliently isolating and mounting said sealed chamber within said housing means;
D. a mass slidably received in said bore in closely fitting relationship thereto and defining therebetween an annular gas metering orifice, said mass being movable from a first position in said bore upon said housing means experiencing a change in velocity in the direction of said bore, said mass including switch engaging means;
E. means for preloading and continuously biasing said mass to said first position;
F. electrical switch means disposed in predetermined spaced relationship from said mass in said first position such that, upon said housing means experiencing a predetermined velocity change in the direction of said bore, the resultant inertial force on said mass overcomes said preload and bias and said mass moves in said bore displacing said gas, and said displaced gas flows through said annular metering orifice for providing a predetermined viscous force, retarding the movement of said mass with respect to said bore such that said mass moves from said first position to place said switch engaging means in contact with said electrical switch means only when said velocity change reaches said predetermined magnitude.
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Abstract
A crash sensor responsive to a predetermined change in velocity for activating a vehicular safety device. The present sensor has a gas-filled sealed tube having an inertial mass disposed therein in a closely fitting manner forming an annular orifice between the mass and the tube. The mass is preloaded and biased and, upon the tube experiencing a level of velocity change above a predetermined amount, movement of the mass in the tube to activate the set of electrical contacts is damped by viscous laminar flow of the gas through the annular orifice.
31 Citations
9 Claims
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1. A viscous damped inertial sensor operable to sense velocity changes in excess of a predetermined magnitude for actuating an impact responsive system, the sensor comprising:
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A. housing means; B. means defining a sealed chamber containing gas and defining a substantially cylindrical bore, said chamber being disposed within said housing means; C. means for resiliently isolating and mounting said sealed chamber within said housing means; D. a mass slidably received in said bore in closely fitting relationship thereto and defining therebetween an annular gas metering orifice, said mass being movable from a first position in said bore upon said housing means experiencing a change in velocity in the direction of said bore, said mass including switch engaging means; E. means for preloading and continuously biasing said mass to said first position; F. electrical switch means disposed in predetermined spaced relationship from said mass in said first position such that, upon said housing means experiencing a predetermined velocity change in the direction of said bore, the resultant inertial force on said mass overcomes said preload and bias and said mass moves in said bore displacing said gas, and said displaced gas flows through said annular metering orifice for providing a predetermined viscous force, retarding the movement of said mass with respect to said bore such that said mass moves from said first position to place said switch engaging means in contact with said electrical switch means only when said velocity change reaches said predetermined magnitude. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A viscous damped inertial sensor operable to sense velocity changes in excess of a predetermined magnitude for actuating an impact responsive system, comprising:
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A. housing means; B. means defining a sealed chamber containing a gas and defining a substantially cylindrical bore, said chamber defining means being disposed within said housing means, said sealed chamber being formed of an austenitic stainless steel having a predetermined coefficient of thermal expansion; C. means for resiliently mounting said chamber within said housing means; D. a mass slidably received in said bore in closely fitting relationship thereto and defining therebetween an annular gas metering orifice, said mass being formed of a nickel-iron alloy including approximately 30 percent nickel by weight and whose coefficient of thermal expansion changes with changes in temperature at a substantially faster rate than that of said austenitic stainless steel for providing a second order temperature compensating effect, said mass being movable from a first position in said bore upon said housing means experiencing a change in velocity in the direction of said bore; E. means for preloading and continuously biasing said means to said first position; F. electrical contact means disposed in predetermined spaced relationship from said mass in said first position such that, upon said housing means experiencing a predetermined velocity change in the direction of said bore, the resultant inertial force on said mass overcomes said preload and bias and said mass moves in said bore displacing said gas, and said displaced gas flows through said annular metering orifice for providing a predetermined viscous force, retarding the movement of said mass with respect to said bore such that said mass moves from said first position to encounter and effect actuation of said electrical contact means only when said velocity change reaches said predetermined magnitude.
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8. A viscous damped inertial sensor operable to sense velocity changes in excess of a predetermined magnitude for actuating an impact responsive system, the sensor comprising:
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A. housing means; B. means defining a sealed chamber containing gas and defining a substantially cylindrical bore, said chamber defining means being disposed within said housing means; C. a mass slidably received in said bore in closely fitting relationship thereto and defining therebetween an annular gas metering orifice, said mass being movable from a first position in said bore upon said housing means experiencing a change in velocity in the direction of said bore, said mass including switch engaging means; D. electrical switch means disposed in predetermined spaced relationship from said mass in said first position such that, upon said housing means experiencing a predetermined velocity change in the direction of said bore, the resultant inertial force acting upon said mass moves in said bore displacing said gas, said displaced gas flows through said annular metering orifice for providing a predetermined viscous force, retarding the movement of said mass with respect to said bore such that said mass moves from said first position to place said switch engaging means in contact with said electrical switch means only when said velocity change reaches and exceeds said predetermined magnitude, said mass and said chamber defining means being formed of materials having a difference of coefficients of thermal expansion varying with temperature so as to effect a second order compensation for the change of the viscosity of said gas with temperature whereby said predetermined velocity change remains substantially constant with variations in temperature.
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9. A viscous damped inertial sensor operable to sense and cumulatively integrate over a time interval velocity changes in excess of a predetermined magnitude for actuating an impact responsive system, comprising:
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A. container means defining a bore therein, said container means being filled with a gas hermetically confined therein; B. a predetermined mass disposed within said container and movable between a first and second position, said mass in said first position cooperating with said housing means to define a volume of said gas, the distance moved by said mass between said first and second position being such that the product of said gas volume and the pressure thereof within said container is substantially equal to the kinetic energy of said mass at the predetermined velocity magnitude, said mass having the outer surface thereof spaced closely adjacent said bore, said spacing between said bore and said mass defining an annular metering orifice therebetween, said annular orifice permitting only laminar flow therethrough for viscously damping the motion of said mass as said gas is displaced through said annular orifice, said spacing being such that all of said kinetic energy of said mass at said predetermined velocity is dissipated as said mass moves through said distance; C. means for continuously biasing said mass toward said first position, said biasing means being effective for preloading said mass in said first position against inertial forces acting upon said mass at velocity changes below said predetermined magnitudes; D. electrical switch means disposed within said container means; and E. engaging means operative upon movement of said mass to said second position to actuate said switch means.
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Specification