Method and apparatus for an adjustable damper
First Claim
1. A non-transitory computer readable storage medium having stored thereon, computer-executable instructions that, when executed by a computer, cause said computer to perform a method for controlling vehicle motion, said method comprising:
- comparing a measured acceleration value associated with a movement of a vehicle component of a vehicle with a predetermined acceleration threshold value that corresponds to said vehicle component, wherein said vehicle component is coupled with a frame of said vehicle via at least one vehicle suspension damper;
monitoring a state of at least one pilot valve within said at least one vehicle suspension damper, wherein said state controls a damping force within said at least one vehicle suspension damper, said damping force controlling a flow of damping fluid from a damping cylinder interior of said at least one vehicle suspension damper to an annular reservoir at least partially surrounding said damping cylinder reservoir, said at least one pilot valve comprising;
a pilot spool having a metering edge, said pilot spool disposed within a bleed passage centrally located about an axis of said damping cylinder interior and said annular reservoir;
at least one port disposed fluidically coupling said damping cylinder interior and said annular reservoir via said bleed passage, said at least one port further disposed to selectively be at least partially obstructed by said metering edge of said pilot spool;
an armature coupled to said pilot spool; and
a coil disposed proximate said armature such that current applied to said coil is able to generate motion of said armature and said pilot spool to cause said metering edge of said pilot spool to at least partially obstruct said at least one port, said motion of said pilot spool affecting pressure such that greater obstruction of said at least one port also increases closing pressure applied to valve shims of said at least one vehicle suspension damper; and
based on said comparing and said monitoring, regulating damping forces within said at least one vehicle suspension damper by actuating said at least one pilot valve to adjust to a desired state, such that an acceleration of said frame is reduced.
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Accused Products
Abstract
A method for controlling vehicle motion is described. The method includes: comparing a measured acceleration value associated with a movement of a vehicle component of a vehicle with a predetermined acceleration threshold value that corresponds to the vehicle component, wherein the vehicle component is coupled with a frame of the vehicle via at least one vehicle suspension damper; monitoring a state of at least one valve within at least one vehicle suspension damper of the vehicle, wherein the state controls a damping force within the at least one vehicle suspension damper; and based on the comparing and the monitoring, regulating damping forces within the at least one vehicle suspension damper by actuating the at least one valve to adjust to a desired state, such that an acceleration of the frame is reduced.
504 Citations
13 Claims
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1. A non-transitory computer readable storage medium having stored thereon, computer-executable instructions that, when executed by a computer, cause said computer to perform a method for controlling vehicle motion, said method comprising:
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comparing a measured acceleration value associated with a movement of a vehicle component of a vehicle with a predetermined acceleration threshold value that corresponds to said vehicle component, wherein said vehicle component is coupled with a frame of said vehicle via at least one vehicle suspension damper; monitoring a state of at least one pilot valve within said at least one vehicle suspension damper, wherein said state controls a damping force within said at least one vehicle suspension damper, said damping force controlling a flow of damping fluid from a damping cylinder interior of said at least one vehicle suspension damper to an annular reservoir at least partially surrounding said damping cylinder reservoir, said at least one pilot valve comprising; a pilot spool having a metering edge, said pilot spool disposed within a bleed passage centrally located about an axis of said damping cylinder interior and said annular reservoir; at least one port disposed fluidically coupling said damping cylinder interior and said annular reservoir via said bleed passage, said at least one port further disposed to selectively be at least partially obstructed by said metering edge of said pilot spool; an armature coupled to said pilot spool; and a coil disposed proximate said armature such that current applied to said coil is able to generate motion of said armature and said pilot spool to cause said metering edge of said pilot spool to at least partially obstruct said at least one port, said motion of said pilot spool affecting pressure such that greater obstruction of said at least one port also increases closing pressure applied to valve shims of said at least one vehicle suspension damper; and based on said comparing and said monitoring, regulating damping forces within said at least one vehicle suspension damper by actuating said at least one pilot valve to adjust to a desired state, such that an acceleration of said frame is reduced. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A non-transitory computer readable storage medium having stored thereon, computer-executable instructions that, when executed by a computer, cause the computer to perform a method for controlling vehicle motion, said method comprising:
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determining that at least one vehicle suspension damper of a vehicle is in a rebounding mode; comparing a measured acceleration value associated with a movement of a vehicle component of said vehicle with a predetermined acceleration threshold value that corresponds to said vehicle component, wherein said vehicle component is coupled with a frame of said vehicle via said at least one vehicle suspension damper; monitoring a state of at least one pilot valve within said at least one vehicle suspension damper of said vehicle, wherein said state controls a damping force within said at least one vehicle suspension damper; and
based on said comparing and said monitoring, regulating damping forces within said at least one vehicle suspension damper by actuating said at least one pilot valve to adjust to a desired state, such that an acceleration of said vehicle component is reduced, said damping force controlling a flow of damping fluid from a damping cylinder interior of said at least one vehicle suspension damper to an annular reservoir at least partially surrounding said damping cylinder reservoir, said at least one pilot valve comprising;a pilot spool having a metering edge, said pilot spool disposed within a bleed passage centrally located about an axis of said damping cylinder interior and said annular reservoir; at least one port disposed fluidically coupling said damping cylinder interior and said annular reservoir via said bleed passage, said at least one port further disposed to selectively be at least partially obstructed by said metering edge of said pilot spool; an armature coupled to said pilot spool; and a coil disposed proximate said armature such that current applied to said coil is able to generate motion of said armature and said pilot spool to cause said metering edge of said pilot spool to at least partially obstruct said at least one port, said motion of said pilot spool affecting pressure such that greater obstruction of said at least one port also increases closing pressure applied to valve shims of said at least one vehicle suspension damper.
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11. A system for controlling vehicle motion, said system comprising:
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an electronic valve of at least one vehicle suspension damper attached to a vehicle, said electronic valve configured for adjusting a damping force therein, said damping force controlling a flow of damping fluid from a damping cylinder interior of said at least one vehicle suspension damper to an annular reservoir at least partially surrounding said damping cylinder reservoir, said electronic valve comprising; a pilot spool having a metering edge, said pilot spool disposed within a bleed passage centrally located about an axis of said damping cylinder interior and said annular reservoir; at least one port disposed fluidically coupling said damping cylinder interior and said annular reservoir via said bleed passage, said at least one port further disposed to selectively be at least partially obstructed by said metering edge of said pilot spool; an armature coupled to said pilot spool; and a coil disposed proximate said armature such that current applied to said coil is able to generate motion of said armature and said pilot spool to cause said metering edge of said pilot spool to at least partially obstruct said at least one port, said motion of said pilot spool affecting pressure such that greater obstruction of said at least one port also increases closing pressure applied to valve shims of said at least one vehicle suspension damper; and a control system coupled to said electronic valve, said control system comprising; a control signal accessor configured for accessing a first set of control signals, wherein at least one control signal of said first set of control signals comprises a measured acceleration value associated with a movement of a vehicle component of said vehicle, wherein said vehicle component is coupled with a frame of said vehicle via at least one vehicle suspension damper; a comparer configured for comparing said measured acceleration value with a predetermined acceleration threshold value that corresponds to said vehicle component; a valve monitor configured for monitoring a state of said electronic valve, wherein said state controls a damping force within said at least one vehicle suspension damper; and an activation signal sender configured for, based on said comparing and said monitoring, regulating damping forces within said at least one vehicle suspension damper by actuating said electronic valve to adjust to a desired state, such that an acceleration of said frame is reduced. - View Dependent Claims (12, 13)
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Specification