Motion detector suitable for detecting earthquakes and the like
First Claim
1. A motion detector device suitable for detecting vibrational tremors such as earthquakes comprising:
- an inertial mass,spring means comprising a spring barb oriented principally for motion along a horizontal axis and a coil spring oriented principally for motion along a vertical axis,means for resiliently supporting said inertial mass on said spring means for resilient motion along both said horizontal and vertical axes comprising means for anchoring said spring barb at one end thereof and means for connecting said coil spring between the other end of said spring barb and said inertial mass,said mass and spring means forming a resonant mechanical vibration circuit at a predetermined vibrational frequency corresponding to that of the vibrational tremor to be detected,spaced apart oppositely positioned electrical switching contact means connected to said spring means and said inertial mass respectively, said contact means being brought into switching contact with each other when said vibrational circuit is excited at said predetermined vibrational frequency, andalarm means connected to said switching means for providing an alarm signal when the contact means are brought into switching contact.
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Abstract
A motion detector for detecting earthquakes or the like provides a warning signal when vibrations having a frequency of the order of the natural frequency of an earthquake tremor are detected. A preferred embodiment of the device employs a vertical spring barb member which is mounted on a suitable support on one end thereof. A coupler member is supported on the other end of the barb member. This coupler member is connected through a coil spring to an inertial mass which is vertically positioned generally in external concentricity with the barb and the coupler, the spring being either compressed or extended to provide a resilient coupling between the coupler member and the inertial mass. The spring and mass elements are chosen so as to have a natural resonant frequency at the frequency of an earthquake tremor (0.7-3 Hz), or other disturbance to be detected. An electrical switching circuit is provided so that when the disturbance to be detected occurs, motion of the inertial mass will cause the electrical switch to close thereby activating a suitable alarm device for providing a warning signal.
25 Citations
11 Claims
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1. A motion detector device suitable for detecting vibrational tremors such as earthquakes comprising:
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an inertial mass, spring means comprising a spring barb oriented principally for motion along a horizontal axis and a coil spring oriented principally for motion along a vertical axis, means for resiliently supporting said inertial mass on said spring means for resilient motion along both said horizontal and vertical axes comprising means for anchoring said spring barb at one end thereof and means for connecting said coil spring between the other end of said spring barb and said inertial mass, said mass and spring means forming a resonant mechanical vibration circuit at a predetermined vibrational frequency corresponding to that of the vibrational tremor to be detected, spaced apart oppositely positioned electrical switching contact means connected to said spring means and said inertial mass respectively, said contact means being brought into switching contact with each other when said vibrational circuit is excited at said predetermined vibrational frequency, and alarm means connected to said switching means for providing an alarm signal when the contact means are brought into switching contact. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A motion detector suitable for detecting vibrational tremors such as earthquakes comprising
a base member, upper and lower electrically conductive contact plates, means for mounting said plates on said base member in opposing spaced apart relationship above said base member, the upper contact plate having a circular aperture formed therein, an electrically insulative support mounted on said base member, an electrically conductive spring barb fixedly attached at one end thereof to said insulative support for motion principally along a horizontal axis, an electrically conductive inertial mass in the form of a sleeve having an elongated hollow interior, a tapering top portion and a cylindrical base portion, a coupler member having a hollow interior, a coil spring attached at one end thereof to said coupler member, means for attaching the other end of said coil spring to the base of said inertial mass, said inertial mass being resiliently supported on said spring barb with said coupler member within the hollow interior of the inertial mass and the other end of the spring barb fitted within the hollow interior of the coupler member, the coil spring being extended upwardly by the barb, the cylindrical base portion of the mass being fitted between the contact plates and spaced therefrom and the tapering top portion thereof fitted through the circular aperture of the upper contact plate in spaced relationship thereto, and the inertial mass and the coil and barb springs forming resonant vibration circuits for both vertical and horizontal vibration modes at the frequency of the tremors such that when excited at said frequency the inertial mass is resonantly vibrated thus producing resonance enhanced displacement allowing the inertial mass to come into electrical contact with one or both of the contact plates.
Specification
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- Resources
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Current AssigneeDavid E. Windisch
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Original AssigneeDavid E. Windisch
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InventorsWindisch, David E.
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Primary Examiner(s)NOT, DEFINED
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Application NumberUS06/813,264Time in Patent Office616 DaysField of Search73/652, 73/654, 340/540, 340/690US Class Current73/652CPC Class CodesG01V 1/01 Measuring or predicting ear...
