IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0423521
(2006-06-12)
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등록번호 |
US-7523803
(2009-07-01)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Automotive Technologies International, Inc.
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대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
21 인용 특허 :
51 |
초록
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Vehicular seat including a weight determining system for obtaining an indication of the weight of an occupying item in the seat includes a seat support structure, a cushion arranged on the seat support structure, the cushion having an upper surface over which the occupying item is situated during oc
Vehicular seat including a weight determining system for obtaining an indication of the weight of an occupying item in the seat includes a seat support structure, a cushion arranged on the seat support structure, the cushion having an upper surface over which the occupying item is situated during occupancy of the seat and being arranged to deflect downward during occupancy of the seat, and a sensor system arranged to sense the downward deflection of the cushion and convert the downward deflection into an indication of the weight of the occupying item. The sensor system may include an elongate cable, a cable support retaining a first end of the cable and a displacement sensor arranged at a second end of the cable for measuring linear variations of the cable which are convertible into the indication of the weight of the occupying item.
대표청구항
▼
The invention claimed is: 1. A vehicular seat including a weight determining system for obtaining an indication of the weight of an occupying item in the seat, comprising: a seat support structure; a cushion arranged on said seat support structure, said cushion having an upper surface over which th
The invention claimed is: 1. A vehicular seat including a weight determining system for obtaining an indication of the weight of an occupying item in the seat, comprising: a seat support structure; a cushion arranged on said seat support structure, said cushion having an upper surface over which the occupying item is situated during occupancy of the seat, said cushion being arranged to deflect downward during occupancy of the seat; and a sensor system arranged to sense the downward deflection of said cushion and convert the downward deflection into an indication of the weight of the occupying item, said sensor system including: a variable length member which changes its length as a function of the weight of the occupying item applied to said cushion and a sensor arranged to detect a change in length of said variable length member, the detected change in length enabling the indication of the weight of the occupying item to be provided. 2. The seat of claim 1, wherein said variable length member includes an elongate cable,said sensor system further comprising a cable support retaining a first end of said cable, said sensor being a displacement sensor arranged at a second end of said cable for measuring linear variations of said cable which are convertible into the indication of the weight of the occupying item. 3. The seat of claim 2, wherein said cable is arranged to stretch axially as a function of the weight of the occupying item and said displacement sensor is arranged to determine the axial stretching of said cable. 4. The seat of claim 2, wherein said displacement sensor comprises a rod connected to said cable and arranged to move upon axial stretching of said cable as a function of the weight of the occupying item, said displacement sensor being arranged to measure the movement of said rod. 5. The seat of claim 4, wherein said displacement sensor further comprises a cylinder having a channel in which said rod is movable, and a spring biased to return said rod to a rest position. 6. The seat of claim 5, wherein said cylinder includes first and second windings of a linear variable differential transformer which are axially spaced apart from one another, movement of said rod being measured by the amount of coupling between said first and second windings. 7. The seat of claim 2, wherein said displacement sensor further comprises biasing means for biasing said cable into a non-displaced position in which it assumes in the absence of an occupying item on the seat. 8. The seat of claim 2, further comprising supports arranged at opposed edges of said cushion, said cable support and said displacement sensor being coupled to a respective one of said supports. 9. The seat of claim 2, wherein said displacement sensor is selected from a group consisting of a linear rheostat, a linear variable differential transformer and a linear variable capacitor. 10. The seat of claim 2, wherein said cushion comprises a foam layer and a spring system arranged under said foam layer, said cable being arranged under said spring system such that deflection of said spring system causes axial stretching of said cable. 11. The seat of claim 1, wherein said cushion comprises a foam layer and a spring system arranged under said foam layer and which is in contact with said sensor system. 12. The seat of claim 1, further comprising supports arranged at opposed edges of said cushion, said sensor system being supported from said supports. 13. The seat of claim 1, wherein said sensor system is arranged to convert the downward deflection into the indication of the weight of the occupying item using a relationship between the downward deflection and weight obtained experimentally. 14. The seat of claim 1, wherein said variable length member comprises at least one spring arranged under said cushion and to expand as a function of the pressure applied to said upper surface of said cushion, and said sensor comprises at least one force-measuring device for measuring tension in said at least one spring. 15. The seat of claim 14, wherein said at least one force-measuring device comprises a strain gage. 16. The seat of claim 15, wherein said sensor system further comprises an interrogator for wirelessly interrogating said strain gage. 17. The seat of claim 1, wherein said cushion comprises a foam layer and said variable length member comprises a spring system arranged under said foam layer, said sensor comprising at least one strain gage arranged in association with said spring system to measure strain in said spring system. 18. The seat of claim 1, wherein said variable length member is a bottom surface or support pan of said cushion and said sensor system comprises at least one strain gage arranged in said bottom surface or support pan of said cushion to measure strain in said bottom surface or support pan. 19. A method for obtaining an indication of the weight of an occupying item in a vehicular seat, comprising: arranging a cushion on a support structure of the seat, the cushion having an upper surface over which the occupying item is situated during occupancy of the seat; arranging a sensor system in a position in which it operatively senses downward deflection of the cushion; and determining the weight of the occupying item when it applies pressure to the upper surface of the cushion using the sensor system by sensing the downward deflection of the cushion and converting the downward deflection into an indication of the weight of the occupying item, the sensor system including: a variable length member which changes its length as a function of the weight of the occupying item applied to the cushion and a sensor arranged to detect a change in length of the variable length member, the detected change in length enabling the indication of the weight of the occupying item to be determined. 20. The method of claim 19, wherein the step of determining the weight of the occupying item comprises experimentally deriving a relationship between downward deflection of the cushion and weight of an occupying item applying pressure to the upper surface of the cushion. 21. A method for identifying an occupant of a vehicular seat, comprising: obtaining an indication of the weight of the occupant in accordance with claim 19, and classifying the occupant based at least in part on the obtained indication of the weight of the occupant. 22. The method of claim 21, further comprising: determining an additional morphological characteristic of the occupant; and classifying the occupant based at least in part on the determined additional morphological characteristic and the obtained indication of the weight of the occupant. 23. A control system for controlling a vehicle component based on occupancy of a seat having a seat support structure and a cushion arranged on the seat support structure, the cushion having an upper surface over which an occupying item is situated during occupancy of the seat and being arranged to be displaced downward during occupancy of the seat, the control system comprising: a sensor system arranged to sense the downward deflection of the cushion and convert the downward deflection into an indication of the weight of the occupying item; an adjustment system arranged to adjust the component in the vehicle; and a processor coupled to said sensor system and to said adjustment system for determining an adjustment for the component by said adjustment system based at least in part on the indication of the weight of the occupying item provided by said sensor system, said sensor system including: a variable length member which changes its length as a function of the weight of the occupying item applied to the cushion and a sensor arranged to detect a change in length of said variable length member, the detected change in length enabling the indication of the weight of the occupying item to be provided. 24. The control system of claim 23, wherein said adjustment system is a system for adjusting deployment of an occupant restraint device. 25. The control system of claim 24, wherein the occupant restraint device is an airbag and said deployment adjustment system is arranged to control at least one of flow of gas into an airbag, flow of gas out of an airbag, rate of generation of gas and amount of generated gas. 26. The seat of claim 1, further comprising a seatbelt sensor for determining whether a seatbelt associated with the seat is in use, said sensor system being coupled to said seatbelt sensor and arranged to compensate for the effect of seatbelt load on the weight of the occupying item when said seatbelt sensor determines that the seatbelt is in use. 27. The seat of claim 1, further comprising a seatbelt tension sensor for determining tension in a seatbelt associated with the seat, said sensor system being coupled to said seatbelt tension sensor and arranged to compensate for the determined tension in the seatbelt on the weight of the occupying item. 28. The method of claim 19, further comprising: determining whether a seatbelt associated with the seat is in use; and compensating for the effect of seatbelt load on the weight of the occupying item when the seatbelt is determined to be in use. 29. The method of claim 19, further comprising: determining tension in a seatbelt associated with the seat; and compensating for the determined tension in the seatbelt on the weight of the occupying item. 30. The control system of claim 23, further comprising a seatbelt sensor for determining whether a seatbelt associated with the seat is in use, said sensor system being coupled to said seatbelt sensor and arranged to compensate for the effect of seatbelt load on the weight of the occupying item when said seatbelt sensor determines that the seatbelt is in use. 31. The control system of claim 23, further comprising a seatbelt tension sensor for determining tension in a seatbelt associated with the seat, said sensor system being coupled to said seatbelt tension sensor and arranged to compensate for the determined tension in the seatbelt on the weight of the occupying item.
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