Seat belt tension sensor package
First Claim
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1. A sensor package for sensing axial tension, comprising:
- a first housing member that has a receptacle cavity;
a second housing member that has at least a portion that moves within said receptacle cavity;
a suspension system movingly interfacing said first housing member with respect to said second housing member, wherein said first and second housing members are relatively movable along an axis, and wherein the movement along the axis is substantially frictionless;
a movement stop connected with said first and second housings, said movement stop defining a range of movement along the axis of said first housing member relative to said second housing member via said suspension system between a first relative position and a second relative position, said movement stop prevents said second housing from being pulled from said receptacle cavity of said first housing member under a tensile force; and
a sensor located on one of said first and second housing members, said sensor sensing tension force between said first and second housing members between said first relative position and said second relative position.
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Abstract
A sensor package which is reliable, low cost, simple, robust, and usable to input additional seat occupant information to an airbag controller to control airbag deployment, and which is insensitive to cross axis loading of a seat belt. A second housing member is internally interfaced with the first housing member, wherein a suspension system frictionlessly suspends the first housing member springably with respect to the second housing member. A pressure sensor is mounted to one of the first and second housings, and a biasing spring is mounted to the other of the first and second housings in axial abutment with the pressure sensor.
39 Citations
17 Claims
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1. A sensor package for sensing axial tension, comprising:
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a first housing member that has a receptacle cavity;
a second housing member that has at least a portion that moves within said receptacle cavity;
a suspension system movingly interfacing said first housing member with respect to said second housing member, wherein said first and second housing members are relatively movable along an axis, and wherein the movement along the axis is substantially frictionless;
a movement stop connected with said first and second housings, said movement stop defining a range of movement along the axis of said first housing member relative to said second housing member via said suspension system between a first relative position and a second relative position, said movement stop prevents said second housing from being pulled from said receptacle cavity of said first housing member under a tensile force; and
a sensor located on one of said first and second housing members, said sensor sensing tension force between said first and second housing members between said first relative position and said second relative position. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
a rearward leaf spring attached at each end to one of said first and second housing members, and interfaced medially to the other of said first and second housing members;
a first leaf spring attached to each of said first and second housing members; and
a second leaf spring attached to each of said first and second housing members at a location opposite said first leaf spring.
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7. The sensor package of claim 6, wherein said first and second leaf springs are L-shaped, wherein said first and second leaf springs are each anchored into one of said first and second housing members via a respective L-shaped slot, and wherein each said L-shaped slot has an acutely angled rearward wall for accommodating flexing of the first and second leaf springs as the first housing member moves along the axis with respect to said second housing member.
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8. The sensor package of claim 7, wherein said second housing member has a nose which is received in said receptacle cavity.
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9. The sensor package of claim 8, wherein:
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the ends of said rearward leaf spring are connected to said first housing member adjacent a forward end of said receptacle cavity, and said nose is medially interfaced with said rearward leaf spring;
the first and second L-shaped slots are located adjacent a rearward end of said receptacle cavity at opposing sides thereof;
said nose has a sensor aperture, said biasing spring being mounted to said nose at said sensor aperture; and
said sensor is mounted to said first housing member and located in said sensor aperture.
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10. A sensor package for sensing axial tension, comprising:
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a first housing member that has a receptacle cavity;
a second housing member that has at least a portion that moves within said receptacle cavity;
a suspension system movingly interfacing said first housing member with respect to said second housing member, wherein said first and second housing members are relatively movable along an axis;
a movement stop connected with said first and second housings, said movement stop defining a range of movement along the axis of said first housing relative to said second housing via said suspension system between a first relative position and a second relative position;
a sensor located on one of said first and second housing members, said sensor sensing tension force between said first and second housing members between said first relative position and said second relative position, said movement stop prevents said second housing from being pulled from said receptacle cavity of said first housing member under a tension force; and
a biasing spring connected to the other of said first and second housing members, wherein said biasing spring abuts said sensor such that said biasing spring compresses against said sensor parallel to the axis in response to movement of said first housing member relative to said second housing member. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
a rearward leaf spring attached at each end to one of said first and second housing members, and interfaced medially to the other of said first and second housing members;
a first leaf spring attached to each of said first and second housing members; and
a second leaf spring attached to each of said first and second housing members at a location opposite said first leaf spring.
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14. The sensor package of claim 13, wherein said first and second leaf springs are L-shaped, wherein said first and second leaf springs are each anchored into one of said first and second housing member via a respective L-shaped slot, and wherein each said L-shaped slot has an acutely angled rearward wall for accommodating flexing of the first and second leaf springs as the first housing member moves along the axis with respect to said second housing member.
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15. The sensor package of claim 14, wherein said second housing member has a nose which is received in said receptacle cavity.
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16. The sensor package of claim 15, wherein:
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said rearward leaf spring has ends that are connected to said first housing member adjacent a forward end of said receptacle cavity, and said nose is medially interfaced with said rearward leaf spring;
the first and second L-shaped slots are located adjacent a rearward end of said receptacle cavity at opposing sides thereof;
said nose has a sensor aperture, said biasing spring being mounted to said nose at said sensor aperture; and
said sensor is mounted to said first housing member and located in said sensor aperture.
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17. The sensor package of claim 10, wherein movement of the first housing member relative to the second housing member is substantially frictionless.
Specification
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Current AssigneeBGM Engineering, Inc.
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Original AssigneeBGM Engineering, Inc.
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InventorsBlackburn, Brian K., Burley, Edward James, Brown, Louis R.
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Primary Examiner(s)Lefkowitz, Edward
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Assistant Examiner(s)JENKINS, JERMAINE L
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Application NumberUS10/094,842Time in Patent Office795 DaysField of Search738/26, 738/28, 737/60, 738/623.81, 738/623.91, 738/623.92, 738/624.73, 738/624.51US Class Current73/826CPC Class CodesB60R 21/0155 sensing belt tensionB60R 22/18 Anchoring devices
