Quick-response accelerometer with increased contact dwell time
First Claim
1. An accelerometer comprising:
- a housing having a cylindrical passage formed therein;
an annular magnetically-permeable element secured to said housing so as to encircle a first longitudinal portion of the passage;
a cylindrical magnetic sensing mass located within the passage, said sensing mass magnetically-interacting with said element so as to be magnetically biased towards a first position within the passage, said first position being characterized in that a longitudinal portion of said sensing mass is situated within said first portion of the passage, said sensing mass being displaced from said first position towards a second position within the passage in response to an accelerating force exceeding said magnetic bias, wherein said magnetic bias varies with displacement of said sensing mass, said magnetic bias being a first value when said sensing mass is in said first position, a second value when said in an intermediate position in said passage intermediate said first and second positions, and a third value when said sensing mass is in said second position, said second value being greater than said first value, and said third value being greater than said first value but less than said second value; and
switch means on said housing responsive to said sensing mass when said sensing mass is displaced to said second position within the passage.
1 Assignment
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Accused Products
Abstract
An acceleration sensor comprises a tube formed of an electrically-conductive, nonmagnetic material; an annular magnetically-permeable element, such as a iron washer, encircling a longitudinal portion of the tube; a magnetic sensing mass in the tube which magnetically interacts with the washer so as to be magnetically biased towards a first or "rest" position in the tube characterized in that a longitudinal portion of the sensing mass is situated within the portion of the tube encircled by the washer, the sensing mass being displaced from its rest position in the tube towards a second position therein in response to an accelerating force exceeding the magnetic bias thereon; and a switch operated by the sensing mass when the sensing mass is displaced to its second position in the tube. The instant accelerometer features a low threshold magnetic bias of the sensing mass of perhaps a fraction of 1 g to provide a quickened sensing mass response to acceleration inputs of short duration; whereafter the magnetic bias increases so as to peak when the sensing mass is displaced to a position within the passage intermediate its first and second positions therein, and thereafter decreases to a value equal to or slightly greater than 0.8 gs to maximize switch contact dwell time.
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Citations
8 Claims
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1. An accelerometer comprising:
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a housing having a cylindrical passage formed therein; an annular magnetically-permeable element secured to said housing so as to encircle a first longitudinal portion of the passage; a cylindrical magnetic sensing mass located within the passage, said sensing mass magnetically-interacting with said element so as to be magnetically biased towards a first position within the passage, said first position being characterized in that a longitudinal portion of said sensing mass is situated within said first portion of the passage, said sensing mass being displaced from said first position towards a second position within the passage in response to an accelerating force exceeding said magnetic bias, wherein said magnetic bias varies with displacement of said sensing mass, said magnetic bias being a first value when said sensing mass is in said first position, a second value when said in an intermediate position in said passage intermediate said first and second positions, and a third value when said sensing mass is in said second position, said second value being greater than said first value, and said third value being greater than said first value but less than said second value; and switch means on said housing responsive to said sensing mass when said sensing mass is displaced to said second position within the passage. - View Dependent Claims (2, 3, 4)
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5. A method for calibrating the return bias force exerted on a sensing mass of an accelerometer, said accelerometer comprising:
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a housing having a cylindrical passage form therein; an annular magnetically-permeable element secured to said housing so as to encircle a first longitudinal portion of the passage; a cylindrical magnetic sensing mass located within the passage, said sensing mass magnetically-interacting with said element so as to be magnetically biased towards a first position within the passage, said first position being characterized in that a longitudinal portion of said sensing mass is situated within said first portion of the passage, said sensing mass being displaced from said first position towards a second position within the passage in response to an accelerating force exceeding said magnetic bias; and switch means on said housing responsive to said sensing mass when said sensing mass is displaced to said second position within the passage, said method including the step of; adjusting at least one of the group consisting of the magnetic strength of said sensing mass, the relative size of said first longitudinal portion of the passage encircled by said element, the dimensions of said element, and the magnetic permeability of said element such that said magnetic bias on said sensing mass has a value less than about 1 g when said sensing mass is in said first position. - View Dependent Claims (6, 7, 8)
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Specification