Multi-axis vibration sensor with integral magnet
First Claim
1. A vibration sensing apparatus for being placed in sensory contact with a machine, the apparatus having a resonant frequency, said apparatus comprising:
- a housing having a first end and a second end;
a magnet disposed within said housing adjacent the first end and rigidly affixed thereto for magnetically attaching the apparatus in a desired orientation to a mounting surface that transmits machine vibration;
a multi-axis vibration sensor disposed within said housing integral with the magnet for sensing vibration produced by the machine along a plurality of machine axes and producing a plurality of sensor signals in the form of an electrical charge corresponding to sensed vibration;
conditioning circuitry for conditioning the sensor signals and producing conditioned sensor signals, said conditioning circuitry including;
a filter for receiving the sensor signals and attenuating the sensor signals at the resonant frequency of the apparatus, producing filtered sensor signals in the form of an electrical charge; and
a converter for converting the filtered sensor signals to an electrical signal for use by a peripheral device.
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Accused Products
Abstract
A multi-axis vibration sensor with integral magnet optimizes sensor response in a non-permanently attachable package. In a preferred embodiment of the invention, the apparatus includes a housing having a magnet, a multi-axis vibration sensor for sensing vibration along multiple machine axes, and conditioning circuitry disposed within the housing. The magnet enables the apparatus to be placed in sensory contact with the machine. The vibration sensor senses machine vibration along multiple machine axes when the apparatus is in sensory contact with the machine, and the conditioning circuitry optimizes the frequency response of the vibration sensor by reducing the gain of the sensor output at resonance. The vibration sensor may be mounted directly to existing machine structure, such as the machine'"'"'s outer casing. Two parallel feet facilitate stable mounting of the sensor curved surface. A keyed mounting pad may be employed to facilitate proper orientation of the sensor.
25 Citations
33 Claims
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1. A vibration sensing apparatus for being placed in sensory contact with a machine, the apparatus having a resonant frequency, said apparatus comprising:
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a housing having a first end and a second end;
a magnet disposed within said housing adjacent the first end and rigidly affixed thereto for magnetically attaching the apparatus in a desired orientation to a mounting surface that transmits machine vibration;
a multi-axis vibration sensor disposed within said housing integral with the magnet for sensing vibration produced by the machine along a plurality of machine axes and producing a plurality of sensor signals in the form of an electrical charge corresponding to sensed vibration;
conditioning circuitry for conditioning the sensor signals and producing conditioned sensor signals, said conditioning circuitry including;
a filter for receiving the sensor signals and attenuating the sensor signals at the resonant frequency of the apparatus, producing filtered sensor signals in the form of an electrical charge; and
a converter for converting the filtered sensor signals to an electrical signal for use by a peripheral device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A vibration sensing apparatus for being placed in sensory contact with a machine, the apparatus having a resonant frequency, said apparatus comprising:
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a housing having a first end and a second end;
a magnet disposed within said housing adjacent the first end and rigidly affixed thereto for magnetically attaching the apparatus in a desired orientation to a surface and for transmitting machine vibration;
a multi-axis vibration sensor disposed within said housing adjacent said magnet for sensing vibration produced by the machine along a plurality of machine axes and producing a plurality of sensor signals corresponding to sensed vibration, said multi-axis vibration sensor being in rigid relation to said magnet; and
a plurality of feet rigidly attached to the first end of said housing for contacting said surface when the apparatus is placed in sensory contact with the machine. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
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29. A vibration sensing apparatus for being placed in sensory contact with a machine, the apparatus having a resonant frequency, said apparatus comprising:
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a magnet assembly for magnetically attaching the apparatus to a mounting surface that transmits machine vibration; and
a multi-axis vibration sensor supported on the machine by the magnet assembly for sensing vibration produced by the machine along a plurality of machine axes and producing a plurality of sensor signals corresponding to sensed vibration, the magnet assembly and multi-axis vibration sensor being oriented and configured to produce said plurality of sensor signals including radial and axial sensor signals with each having substantially linear response ranges where the sensor signal varies by no more than about ±
3 dB over a bandwidth of frequencies greater than or equal to about 5 KHz and a vertical axis sensor signal having a substantially linear response range where the sensor signal varies by no more than about ±
3 dB over a bandwidth of frequencies greater than or equal to about 10 KHz, said multi-axis vibration sensor being in rigid relation to said magnet assembly and electrically isolated therefrom. - View Dependent Claims (30, 31)
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32. A vibration sensing apparatus for being placed in sensory contact with a machine, the apparatus having a resonant frequency, said apparatus comprising:
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a housing having a first end and a second end;
a magnet disposed within said housing adjacent the first end and rigidly affixed thereto for magnetically attaching the apparatus to a mounting surface that transmits machine vibration;
a multi-axis vibration sensor disposed within said housing for sensing vibration produced by the machine along a plurality of machine axes and producing a plurality of sensor signals corresponding to sensed vibration, each of said sensor signals having a substantially linear response range, said multi-axis vibration sensor being in rigid relation to said magnet;
a conditioning circuit associated with said housing for attenuating the sensor signals at resonance to a level of no more than 15 db relative to the vibration sensor response in said substantially linear response range, producing attenuated sensor signals; and
a communication link adjacent the second end of the housing for outputting the attenuated sensor signals to a peripheral device.
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33. A vibration sensing apparatus for being placed in sensory contact with a machine, the apparatus having a resonant frequency, said apparatus comprising:
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a housing having a first end and a second end;
a magnet disposed within said housing adjacent the first end and rigidly affixed thereto for magnetically attaching the apparatus in a desired orientation to a mounting surface that transmits machine vibration;
a multi-axis vibration sensor disposed within said housing integral with the magnet for sensing vibration produced by the machine along a plurality of machine axes and producing a plurality of sensor signals in the form of an electrical charge corresponding to sensed vibration;
conditioning circuitry for conditioning the sensor signals and producing conditioned sensor signals, said conditioning circuitry including;
a filter for receiving the sensor signals and attenuating the sensor signals at the resonant frequency of the apparatus, producing filtered sensor signals in the form of an electrical charge; and
a converter for converting the filtered sensor signals to an electrical signal for use by a peripheral device;
a communication link adjacent the second end of the housing for outputting the conditioned sensor signals to the peripheral device; and
a plurality of elongate and substantially parallel feet rigidly attached to the first end of said housing for contacting said mounting surface when the apparatus is placed in sensory contact with the machine.
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Specification