Integrating angular accelerometer
First Claim
1. An integrating angular accelerometer for measuring angular rate of a rotating body which comprises:
- a housing fixedly attached to the rotating body having an annularly shaped channel operatively disposed therein;
means for remaining inertially fixed when said housing is rotated relative thereto which includes;
a seismic mass formed of tungsten and molybdenum rotatably supported within said housing;
an instrument ball bearing axially disposed intermediate said housing and a first end of said seismic mass;
viscous liquid means for improving the sensitivity of the output signal from said accelerometer with respect to changes in angular rate which includes;
mercury liquid disposed in said channel about the acceleration sensitive axis of said seismic mass, said channel dimensioned to provide laminar fluid flow within said mercury upon relative rotation of said housing and said seismic mass, said mercury and seismic mass having equally selected mass densities to make said seismic mass neutrally bouyant in said housing to eliminate detrimental effects of shock and vibration on said instrument bearing;
reservoir means fluidically coupled to said channel providing a temperature compensating expansion chamber for said mercury liquid;
splitter means operatively disposed in said housing and channel for generating a pressure difference on a first and second sensing region; and
means for sensing said pressure difference wherein the output signal is proportional to the angular velocity of said housing which includes;
a differential pressure transducer operatively disposed proximate to said first and second sensing region; and
means for isolating said transducer from said first and second sensing region.
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Accused Products
Abstract
The present invention is directed to an integrating angular accelerometer ich has a neutrally buoyant mass, thereby eliminating the detrimental effect of high shock and vibration loads. The accelerometer includes a housing and an inertial mass positioned in the housing, arranged for relative rotation with respect to the housing. An annular channel is provided between the housing and the inertial mass, located about the acceleration sensitive axis and dimensioned to cause fluid flow upon relative rotation of the housing and inertial mass in the direction of relative rotation. The fluid contained within the channel is a viscous fluid having a density equal to that of the inertial mass so as to achieve a neutral buoyancy of the inertial mass. A splitter for blocking fluid flow in the channel is provided so as to produce a differential pressure which corresponds to the relative angular rotation of the inertial mass and housing. A transducer is provided for converting the differential pressure into an electrical signal corresponding thereto.
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Citations
3 Claims
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1. An integrating angular accelerometer for measuring angular rate of a rotating body which comprises:
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a housing fixedly attached to the rotating body having an annularly shaped channel operatively disposed therein; means for remaining inertially fixed when said housing is rotated relative thereto which includes; a seismic mass formed of tungsten and molybdenum rotatably supported within said housing; an instrument ball bearing axially disposed intermediate said housing and a first end of said seismic mass; viscous liquid means for improving the sensitivity of the output signal from said accelerometer with respect to changes in angular rate which includes; mercury liquid disposed in said channel about the acceleration sensitive axis of said seismic mass, said channel dimensioned to provide laminar fluid flow within said mercury upon relative rotation of said housing and said seismic mass, said mercury and seismic mass having equally selected mass densities to make said seismic mass neutrally bouyant in said housing to eliminate detrimental effects of shock and vibration on said instrument bearing; reservoir means fluidically coupled to said channel providing a temperature compensating expansion chamber for said mercury liquid; splitter means operatively disposed in said housing and channel for generating a pressure difference on a first and second sensing region; and means for sensing said pressure difference wherein the output signal is proportional to the angular velocity of said housing which includes; a differential pressure transducer operatively disposed proximate to said first and second sensing region; and means for isolating said transducer from said first and second sensing region. - View Dependent Claims (2, 3)
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Specification