Webbing tension sensor
First Claim
Patent Images
1. A webbing tension sensing unit for sensing tension in the webbing of a seat belt of an automobile, the webbing tension sensing unit comprising:
- a base;
a rigid hinge arm pivotally connected to the base;
a biasing element disposed between the base and the hinge arm wherein the hinge arm is elastically biased against a webbing passing over a free end of the hinge arm;
a magnet; and
a sensor for detecting motion of the hinge arm in response to a change in tension in the webbing, further wherein the sensor is a Hall effect sensor for detecting a change in a magnetic field at the sensor caused by relative motion of the sensor and magnet responsive to a change in tension in the webbing.
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Accused Products
Abstract
A webbing tension sensing unit which includes a base and a cover and an elastically biasing element mounted within the base and cover. The webbing of, for example, a seat belt is operably connected to a sensor also housed within the base and cover. The sensor detects movement in relation to the elastically biasing element and generates electrical signals in proportion to the movement as a function of the tension in the webbing. The signals are used for analysis as part of a system to determine if devices such as an air bag or warning light should be triggered.
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Citations
27 Claims
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1. A webbing tension sensing unit for sensing tension in the webbing of a seat belt of an automobile, the webbing tension sensing unit comprising:
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a base;
a rigid hinge arm pivotally connected to the base;
a biasing element disposed between the base and the hinge arm wherein the hinge arm is elastically biased against a webbing passing over a free end of the hinge arm;
a magnet; and
a sensor for detecting motion of the hinge arm in response to a change in tension in the webbing, further wherein the sensor is a Hall effect sensor for detecting a change in a magnetic field at the sensor caused by relative motion of the sensor and magnet responsive to a change in tension in the webbing. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
a cover;
said cover defining a gap between the base and the cover whereby the webbing passes therethrough.
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4. The webbing tension sensing unit of claim 1, wherein the relative motion of the magnet and the Hall effect sensor describes an arcuate path, the magnet and the Hall effect sensor being disposed adjacent an edge of the webbing.
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5. The webbing tension unit of claim 1, wherein
the magnet is mounted on the hinge arm and is operatively coupled to the Hall effect sensor wherein the change in tension in the webbing results in a changing magnetic field that is detected by the Hall sensor. -
6. The webbing tension sensing unit of claim 2 further comprising:
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a hinge arm spring pin;
the hinge arm spring pin being generally centrally disposed on the free end of the hinge arm;
a base spring pin;
the base spring pin being generally centrally disposed on the base and substantially aligned with the hinge arm spring pin so that the spring is movably retained therein.
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7. The webbing tension sensing unit of claim 1, wherein the sensor is mounted on the base.
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8. The webbing tension sensing unit of claim 1, wherein the webbing is a seat belt.
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9. A webbing tension sensing unit comprising:
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a fixed anchor;
a moveable anchor member attachable to a webbing and slidably connected to the fixed anchor;
at least one biasing element elastically mounted between the fixed anchor and the moveable anchor member structured and arranged so that when the moveable anchor member slides with respect to the fixed anchor, the at least one biasing element is elastically deformed in relation to a tension force in the webbing; and
a sensor for detecting a movement of the moveable anchor member with respect to the fixed anchor. - View Dependent Claims (10, 11, 12, 13, 14, 18, 19)
a cover attached to the moveable anchor member wherein the at least one biasing element is enclosed by the cover.
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11. The webbing tension sensing unit of claim 10, further comprising a magnet disposed on the cover;
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the magnet being operably coupled to the sensor and wherein the sensor is a magnetic field sensor.
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12. The webbing tension sensing unit of claim 11, wherein the sensor is a hall sensor.
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13. The webbing tension sensing unit of claim 9, wherein the at least one biasing element is a spring.
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14. The webbing tension sensing unit of claim 13, wherein the spring includes a spring cover structured and arranged to reduce noise produced by the spring.
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18. The webbing tension sensing unit of claim 9 further comprising:
motion stops disposed between the fixed anchor and the moveable anchor member structured and arranged to prevent the at least one biasing element from moving past a specified point.
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19. The webbing tension sensing unit of claim 9 wherein the webbing is a seat belt.
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15. A webbing tension sensing unit comprising:
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an anchor;
a moveable anchor member attached to a webbing and slidably connected to the anchor;
at least one biasing element elastically mounted between the anchor and the moveable anchor member structured and arranged so that when the moveable anchor member slides with respect to the anchor, the at least one biasing element is elastically deformed in relation to a tension force in the webbing;
a magnetic field sensor for detecting a movement of the moveable anchor member with respect to the anchor;
a cover attached to the moveable anchor member wherein the at least one biasing element is enclosed by the cover; and
further comprising;
a magnet holder disposed within the cover holding a magnet and structured and arranged to maintain a precise distance from the sensor. - View Dependent Claims (16, 17)
a sensor holder attached to the anchor structured and arranged to hold the sensor.
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17. The webbing tension sensing unit of claim 16, wherein both the sensor holder and the magnet holder are made from materials having substantially similar coefficients of expansion.
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20. A webbing tension sensing unit comprising:
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an anchor, a moveable anchor member attachable to a webbing and slidably connected to the anchor;
at least one biasing element elastically mounted between the anchor and the moveable anchor member structured and arranged so that when the moveable anchor member moves with respect to the anchor, the at least one biasing element is elastically deformed in relation to a tension force in the webbing; and
a sensor for detecting movement of the moveable anchor member with respect to the anchor wherein the sensor comprises a sensor for detecting a magnetic field intensity and further comprising a magnet disposed in proximity to the sensor whereby when the moveable anchor moves in response to a tension force in the webbing, the sensor and the magnet relatively move with respect to each other, the magnet and sensor being disposed alongside each other with the distance between the magnet and the sensor being maintained substantially uniform during the relative movement. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
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Specification