Seat belt pretensioner

1. An apparatus for tensioning belt webbing to restrain movement of a vehicle occupant, said apparatus comprising:

a rotary trochoidal motor comprising a housing having a wall with an inner surface defining a chamber, a rotor rotatable and orbitable in said chamber about an axis and having a fluid engagement surface, an output shaft supported for rotation relative to said housing, and means for transmitting rotational force from said rotor to said output shaft to rotate said output shaft;

a fluid source actuatable to supply fluid under pressure;

means for metering and directing fluid under pressure from said fluid source when actuated into said chamber and against said fluid engagement surface of said rotor to rotate said rotor in a first direction of rotation in said chamber and thereby to rotate said output shaft;

a belt webbing engagement member engageable with the belt webbing to tension the belt webbing; and

means for interconnecting said output shaft with said belt webbing engagement member to transmit force from said rotating output shaft to said belt webbing engagement member to tension the belt webbing.

2. An apparatus as set forth in claim 1 wherein said belt webbing engagement member comprises a spool on which the belt webbing is windable, said means for interconnecting said output shaft with said belt webbing engagement member comprising means for coupling said spool for rotation with said output shaft.

3. An apparatus as set forth in claim 1 wherein said seat belt webbing engagement member comprises a buckle assembly connected with the seat belt webbing and having a flexible member connected therewith, said means for interconnecting said output shaft with said belt webbing engagement member comprising a drum rotatable with said output shaft for winding the flexible member on said drum to tension the belt webbing.

4. An apparatus as set forth in claim 1 wherein said belt webbing engagement member comprises a web grabber having an opening through which the belt webbing is extensible, said web grabber being rotatable between a first position in which the belt webbing is movable through said web grabber and a second position in which the belt webbing is wound on said web grabber to tension the belt webbing, said means for interconnecting said output shaft with said belt webbing engagement member comprising means for coupling said web grabber for rotation with said output shaft to tension the belt webbing.

5. An apparatus as set forth in claim 4 wherein said web grabber includes a shorter portion and a longer portion spaced about said opening in said web grabber, said longer portion drawing belt webbing into a wound position on said web grabber at a faster rate than said shorter portion upon actuation of said fluid source.

6. An apparatus as set forth in claim 1 wherein said means for transmitting rotational force from said rotor to said output shaft comprises:

a clutch movable between a disengaged condition blocking transmission of force from said rotor to said output shaft and an engaged condition transmitting force from said rotor to said output shaft to tension the belt webbing; and

means responsive to the actuation of said fluid pressure source for moving said clutch from the disengaged condition to the engaged condition.

7. An apparatus as set forth in claim 6 wherein said belt webbing engagement member comprises a spool on which the belt webbing is windable, said clutch comprising means for coupling said spool for rotation with said rotor.

8. An apparatus as set forth in claim 7 wherein said means for coupling comprises a cam rotatable with said rotor and a coupling element movable into engagement with said output shaft by said cam to couple said output shaft and thereby said spool for rotation with said rotor.

9. An apparatus as set forth in claim 1 wherein said fluid source comprises a pyrotechnic device actuatable to generate fluid under pressure over a period of time less than thirty milliseconds, said means for directing fluid under pressure comprising a fluid passage in said housing extending between said pyrotechnic device and said chamber and having an opening into said chamber, said fluid passage directing fluid under pressure from said pyrotechnic device when actuated into said chamber to rotate said rotor in the first direction of rotation in said chamber.

10. An apparatus as set forth in claim 1 wherein said fluid source comprises a container and a source of gas under pressure in said container, said means for metering and directing fluid under pressure comprising a fluid passage in said housing extending between said container and said chamber and having an opening into said chamber, said fluid passage directing gas under pressure from said container into said chamber to rotate said rotor in the first direction of rotation in said chamber.

11. An apparatus for tensioning belt webbing to restrain movement of a vehicle occupant, said apparatus comprising:

a rotary trochoidal motor comprising a housing having a wall with an inner surface defining a chamber, a rotor rotatable in said chamber and having a fluid engagement surface, an output shaft supported for rotation relative to said housing, and means for transmitting rotational force from said rotor to said output shaft to rotate said output shaft;

a fluid source actuatable to supply fluid under pressure;

means for metering and directing fluid under pressure from said fluid source when actuated into said chamber and against said fluid engagement surface of said rotor to rotate said rotor in a first direction of rotation in said chamber and thereby to rotate said output shaft;

a belt webbing engagement member engageable with the belt webbing to tension the belt webbing; and

means for interconnecting said output shaft with said belt webbing engagement member to transmit force from said rotating output shaft to said belt webbing engagement member to tension the belt webbing;

said belt webbing engagement member comprising a spool on which the belt webbing is windable, said means for interconnecting said output shaft with said belt webbing engagement member comprising a first gear rotatable with said output shaft and a second gear in meshing engagement with said first gear and rotatable with said spool.

12. An apparatus for tensioning belt webbing to restrain movement of a vehicle occupant, said apparatus comprising:

a rotary trochoidal motor comprising a housing having a wall with an inner surface defining a chamber, a rotor rotatable in said chamber and having a fluid engagement surface, an output shaft supported for rotation relative to said housing, and means for transmitting rotational force from said rotor to said output shaft to rotate said output shaft;

a fluid source actuatable to supply fluid under pressure;

means for metering and directing fluid under pressure from said fluid source when actuated into said chamber and against said fluid engagement surface of said rotor to rotate said rotor in a first direction of rotation in said chamber and thereby to rotate said output shaft;

a belt webbing engagement member engageable with the belt webbing to tension the belt webbing;

means for interconnecting said output shaft with said belt webbing engagement member to transmit force from said rotating output shaft to said belt webbing engagement member to tension the belt webbing; and

means connected with said housing for blocking rotation of said rotor in said chamber in a second direction of rotation opposite to said first direction of rotation.

13. An apparatus as set forth in claim 12 wherein said means for blocking rotation of said rotor comprises a lock lever supported on said housing for movement between a first position blocking rotation of said rotor in the second direction of rotation and a second position enabling rotation of said rotor in the second direction of rotation.

14. An apparatus as set forth in claim 13 including biasing means for biasing said lock lever into the first position blocking rotation of said rotor in the second direction of rotation, said lock lever being movable against the biasing effect of said biasing means into the second position enabling rotation of said rotor in the second direction of rotation.

15. An apparatus as set forth in claim 13 including an overcenter spring having a first condition biasing said lock lever into the first position blocking rotation of said rotor in the second direction of rotation and a second condition biasing said lock lever into the second position enabling rotation of said rotor in the second direction of rotation.

16. An apparatus as set forth in claim 13 further comprising means for directing fluid under pressure from said fluid pressure source to move said lock lever from the second position to the first position.

17. An apparatus as set forth in claim 12 wherein said belt webbing engagement member comprises a spool on which the belt webbing is windable, a ratchet wheel connected for rotation with said spool, said means for blocking rotation of said rotor in the second direction of rotation comprising a lock pawl movable into engagement with said ratchet wheel to block rotation of said spool in a belt withdrawal direction and means responsive to the actuation of said fluid pressure source for moving said lock pawl into engagement with said ratchet wheel.

18. An apparatus as set forth in claim 17 wherein said means responsive to the actuation of said fluid pressure source for moving said lock pawl into engagement with said ratchet wheel comprises:

a flexible member engageable with said lock pawl and movable into an engagement position to move and hold said lock pawl into engagement with said ratchet wheel to block rotation of said spool in the belt withdrawal direction and to enable rotation of said spool in an opposite belt retraction direction; and

fluid passage means for directing fluid under pressure from said actuated fluid pressure source to move said member into the engagement position to move said lock pawl into engagement with said ratchet wheel.

19. An apparatus for tensioning belt webbing to restrain movement of a vehicle occupant, said apparatus comprising:

a rotary trochoidal motor comprising a housing having a wall with an inner surface defining a chamber, a rotor rotatable in said chamber and having a fluid engagement surface, an output shaft supported for rotation relative to said housing, and means for transmitting rotational force from said rotor to said output shaft to rotate said output shaft;

a fluid source actuatable to supply fluid under pressure;

means for metering and directing fluid under pressure from said fluid source when actuated into said chamber and against said fluid engagement surface of said rotor to rotate said rotor in a first direction of rotation in said chamber and thereby to rotate said output shaft;

a belt webbing engagement member engageable with the belt webbing to tension the belt webbing; and

means for interconnecting said output shaft with said belt webbing engagement member to transmit force from said rotating output shaft to said belt webbing engagement member to tension the belt webbing;

said chamber having an epitrochoidal configuration defined by said housing inner wall surface, said rotor being generally triangular in configuration and having three fluid engagement surfaces including said fluid engagement surface, said means for directing fluid under pressure into said chamber and against said fluid engagement surface of said rotor comprising an inlet port at a fixed location in said housing wall.