IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0093405
(2016-04-07)
|
등록번호 |
US-10124761
(2018-11-13)
|
우선권정보 |
DE-10 2015 209 252 (2015-05-20) |
발명자
/ 주소 |
- Klingauf, Gerhard
- Ganso, Christine-Martina
- Windmiller, Daniel
- Sotlar, Sascha
|
출원인 / 주소 |
- Joyson Safety Systems Germany GmbH
|
대리인 / 주소 |
Gordon Rees Scully Mansukhani, LLP
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
2 |
초록
▼
Tensioner drive for a safety belt device that includes a gas generator, a driving wheel, and a feed tube. The tube connects the gas generator and the driving wheel. There is at least one thrust body in the feed tube. The thrust body is accelerated after triggering of the gas generator and drives the
Tensioner drive for a safety belt device that includes a gas generator, a driving wheel, and a feed tube. The tube connects the gas generator and the driving wheel. There is at least one thrust body in the feed tube. The thrust body is accelerated after triggering of the gas generator and drives the driving wheel. There is a fixing element between the thrust body and the gas generator that is supported on the inner wall of the feed tube.
대표청구항
▼
1. A tensioner drive (30) for a safety belt device, comprising: a gas generator (40),a driving wheel (50), anda feed tube (60), which connects the gas generator (40) and the driving wheel (50), wherein at least one thrust body is located within the feed tube between the gas generator (40) and the dr
1. A tensioner drive (30) for a safety belt device, comprising: a gas generator (40),a driving wheel (50), anda feed tube (60), which connects the gas generator (40) and the driving wheel (50), wherein at least one thrust body is located within the feed tube between the gas generator (40) and the driving wheel (50), the at least one thrust body being accelerated after triggering of the gas generator (40) and driving the driving wheel;a fixing element (200) is located between the at least one thrust body (70, 71) and the gas generator (40), the fixing element being supported on an inner wall (61) of the feed tube; anda spring element arranged between the fixing element and the at least one thrust body is supported on an annular holding portion of the fixing element, the spring force of the spring element pushing the at least one thrust body in the direction of the driving wheel and holding the at least one thrust body without rattling within the feed tube before the triggering of the gas generator. 2. The tensioner drive (30) as claimed in claim 1, wherein, as seen in the longitudinal direction of the feed tube, frictional or positive engagement is used to ensure that, after the triggering of the gas generator (40), the fixing element (200) remains in the assembly position specified before the triggering of the gas generator (40) or at least lags behind the at least one thrust body (70, 71) situated immediately in front and driven by the gas generator (40). 3. The tensioner drive (30) as claimed in claim 1, wherein the fixing element (200) has at least one claw, which extends radially outward and rests resiliently against the inner wall (61) of the feed tube (60), forming a nonpositive or frictional joint. 4. The tensioner drive (30) as claimed in claim 1, wherein the fixing element (200) has at least one supporting portion (240), which is supported on a taper (62) of the feed tube (60) in the assembly position before the triggering of the gas generator (40) or is pushed onto the taper (62) after the triggering of the gas generator (40). 5. The tensioner drive (30) as claimed in claim 1, wherein the fixing element (200) has at least one hook, which, in the assembly position before the triggering of the gas generator (40), is hooked to a taper (62) of the feed tube (60) to form a positive joint with the feed tube (60) or, after the triggering of the gas generator (40), is hooked to the taper (62) to form a positive joint with the feed tube (60). 6. The tensioner drive (30) as claimed in claim 1, wherein the fixing element (200) is formed by a bent sheet-metal part. 7. The tensioner drive (30) as claimed in claim 6, wherein the sheet-metal part rests resiliently against the inner wall (61) of the feed tube (60) by means of an end face (231) of the sheet to form a nonpositive or frictional joint. 8. The tensioner drive (30) as claimed in claim 6, wherein an end edge (232, 233) of an end face (231) of the sheet presses resiliently against the inner wall (61) of the feed tube (60) to form a nonpositive or frictional joint. 9. The tensioner drive (30) as claimed in claim 6, wherein the sheet-metal part has a claw portion (230), which forms a claw, and extends radially outward and rests resiliently against the inner wall (61) of the feed tube (60) to form a nonpositive or frictional joint. 10. The tensioner drive (30) as claimed in claim 9, wherein the claw portion (230) is formed by an end portion of the sheet of the sheet-metal part; andan end face (231) of the sheet in the region of the claw portion (230) rests resiliently against the inner wall (61) of the feed tube (60) to form a nonpositive or frictional joint, and/or an end edge (232, 233) of the end face (231) of the sheet in the region of the claw portion (230) presses resiliently against the inner wall (61) of the feed tube (60) to form a nonpositive or frictional joint. 11. The tensioner drive (30) as claimed in one of claim 6, wherein the sheet-metal part has at least one supporting portion (240), which is supported on a taper (62) of the feed tube (60) in the assembly position before the triggering of the gas generator (40) or is pushed onto the taper (62) after the triggering of the gas generator. 12. The tensioner drive (30) as claimed in claim 6, wherein the fixing element (200) is annular and has a through hole (210) in the region of the center of the feed tube (60). 13. The tensioner drive (30) as claimed in claim 6, wherein the fixing element (200) is rotationally symmetrical. 14. The tensioner drive as claimed in one of claim 6, wherein the sheet-metal part has at least one hook portion, which forms a hook and, in the assembly position before the triggering of the gas generator, is hooked to a taper of the feed tube to form a positive joint with the feed tube or, after the triggering of the gas generator, is hooked to the taper to form a positive joint with the feed tube. 15. The tensioner drive (30) as claimed in claim 1, wherein at least two thrust bodies are located in the feed tube; andthe fixing element (200) is arranged between the gas generator (40) and a first thrust body of the at least two thrust bodies which is the first when viewed in the driving direction (A), with a spacing relative to the gas generator (40) in the assembly position before the triggering of the gas generator. 16. The tensioner drive (30) as claimed in claim 1, wherein the claw is circular-arc-shaped and is formed by a radially outwardly curved outer edge of the fixing element. 17. The tensioner drive (30) as claimed in claim 16, wherein the circular-arc-shaped claw extends radially to the outside and rests resiliently against an inner wall of the feed tube, forming a nonpositive or frictional joint. 18. A tensioner drive for a safety belt device, comprising: a gas generator,a driving wheel, anda feed tube, which connects the gas generator and the driving wheel, wherein at least one thrust body is located within the feed tube between the gas generator and the driving wheel, the at least one thrust body being accelerated after triggering of the gas generator and driving the driving wheel;a fixing element is located between the at least one thrust body and the gas generator, the fixing element being supported on an inner wall of the feed tube and being formed by a bent sheet-metal part; andan end edge of an end face of the sheet presses resiliently against the inner wall of the feed tube to form a nonpositive or frictional joint. 19. A tensioner drive for a safety belt device, comprising: a gas generator,a driving wheel, anda feed tube, which connects the gas generator and the driving wheel, wherein at least one thrust body is located within the feed tube between the gas generator and the driving wheel, the at least one thrust body being accelerated after triggering of the gas generator and driving the driving wheel;a fixing element is located between the at least one thrust body and the gas generator, wherein the fixing element is supported on an inner wall of the feed tube, is formed by a bent sheet-metal part, and is annular and has a through hole in the region of the center of the feed tube.
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