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Active vibration isolating support apparatus

  • US 9,592,726 B2
  • Filed: 05/14/2014
  • Issued: 03/14/2017
  • Est. Priority Date: 08/10/2007
  • Status: Active Grant
First Claim
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1. An active vibration isolating support apparatus for reducing vibration transmitted from an engine provided with a crank pulse sensor, wherein the engine in which a reciprocating motion of a piston is converted to a rotary motion of a crankshaft is supported via vibration isolating support units in a vehicle body each of which comprises an actuator, the active vibration isolating support apparatus comprising:

  • a control unit connected to the actuator and configured to drive the actuator to extend and contract periodically depending on a vibrational state of the engine, thereby reducing transmission of vibration of the engine to the vehicle body,wherein the vibration isolating support units are disposed on opposite sides of the crankshaft, andand wherein the control unit;

    receives a TDC pulse signal to exhibit timing of a top dead center for each cylinder, and a crank pulse signal;

    determines a detection of a starting of the engine;

    sets a phase delay which delays a phase by a predetermined time difference from a timing at which it is determined that an initial explosion occurs to start the engine based on the TDC pulse signal and the crank pulse signal;

    determines a first selected unit from one vibration isolating support unit and the other vibration isolating support unit, to drive the actuator thereof to extend and contract;

    starts control of the one selected vibration isolating support unit with the set phase delay while maintaining the other vibration isolating support unit in an inactive state; and

    drives the actuator of one of the vibration isolating support units to contract, the one of the vibration isolating support units being positioned on a side where the one is to be compressed by roll vibration associated with an initial explosion, so as to reduce transmission of roll vibration of the engine in a direction which is reverse to the rotation direction of the crankshaft of the engine when the initial explosion is determined to be detected by the control unit using crank pulse intervals output from the crank pulse sensor after a time when the engine starts at a time of starting of the engine.

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