(19)
(11)EP 1 371 528 A1

(12)EUROPEAN PATENT APPLICATION

(43)Date of publication:
17.12.2003 Bulletin 2003/51

(21)Application number: 02254172.6

(22)Date of filing:  14.06.2002
(51)International Patent Classification (IPC)7B60R 22/195, B60R 22/46
(84)Designated Contracting States:
AT BE CH CY DE DK ES FI FR GB GR IE IT LI LU MC NL PT SE TR
Designated Extension States:
AL LT LV MK RO SI

(71)Applicant: Breed Automotive Technology, Inc.
Lakeland, Florida 33811-1130 (US)

(72)Inventors:
  • Bell, John
    Carlisle, Cumbria (GB)
  • Palliser, Martyn
    Carlisle, Cumbria CA5 7NF (GB)

(74)Representative: Freeman, Jacqueline Carol 
W.P. THOMPSON & CO. 55 Drury Lane
London WC2B 5SQ
London WC2B 5SQ (GB)

 
Remarks:
Amended claims in accordance with Rule 86 (2) EPC.
 


(54)Pretensioner


(57) A pretensioner for a vehicle safety restraint comprising a piston (2), a cylinder (1) housing the piston (2), a force reservoir (12), activatable when a crash is sensed, to drive the piston (2) along the cylinder (1), a resilient band (7) connected to the piston (2), and means (7,8,9) for selectively connecting the band (7) to a retractor spool under predetermined conditions.
The force reservoir (12) comprises a gas generator (12) which may be pyrotechnically activated and has an output in the cylinder (1) on one side of the piston (2) to drive the piston (2) along the cylinder (1) pulling the band (7) and engaging the connecting means (7,8,9) to turn the retractor spool and shorten the belt webbing.




Description


[0001] The present invention relates to a pretensioner and particularly to a pretensioner for a vehicle safety restraint mechanism such as a seat belt.

[0002] Traditionally a seat belt safety restraint comprises a length of belt webbing connected at both ends to load bearing parts of a vehicle, and arranged to pass across a lap, and also diagonally across a torso, of a vehicle occupant. It is selectively fastened across the occupant by means of a buckle mechanism engaging a buckle tongue slidably attached to the webbing.

[0003] To increase comfort for the restrainee, a retractor is fitted at one end of the webbing. This allows the webbing to pay out under relatively low loads to enable limited movement of the restrained occupant, for example to reach in-car entertainment controls or storage compartments. The retractor is biased to keep the webbing relatively taut about the occupant and a locking element is included to lock the retractor against webbing payout in the event of a dangerous situation being detected. For example, an acceleration sensor may activate if the vehicle undergoes rapid acceleration or deceleration indicative of a crash.

[0004] The retractor usually comprises a rotatable spool onto which the webbing is wound biased by a clock spring.

[0005] In recent years, pretensioners have been introduced to rapidly pull in a length of webbing to actively tighten the belt about the vehicle occupant in the event of a crash condition being sensed. This takes up any slack which may have developed in the belt and helps to more correctly position the occupant in the seat to maximise the effect of the belt protection and of any secondary safety restraint such as an air bag.

[0006] Pretensioners comprise a force reservoir such as a pyrotechnically operated gas generator which drives a piston guided inside a cylinder, pulling a cable which rotates the spool and winds in a few coils of webbing before the spool locks and secures the vehicle occupant.

[0007] Known such retractor pretensioners are bulky, costly and comprise many parts. They are single operation devices and are prone to jam the restraint locked when fired so that they cannot operate a second time and can thus be dangerous if a vehicle is involved in a second impact.

[0008] It is an object of the invention to provide an improved pretensioner mechanism.

[0009] Pretensioners can be constructed according to the invention which have reduced or eliminated jamming, smaller package sizes and which function as or close to normal again even after the pyrotechnic device has fired.

[0010] According to the present invention there is provided a pretensioner for a vehicle safety restraint comprising:

a piston;

a cylinder housing the piston;

a force reservoir, activatable when a crash is sensed, to drive the piston along the cylinder;

a resilient band connected to the piston;

means for selectively connecting the band to a retractor spool under a predetermined condition.



[0011] For example the engagement will be arranged to occur when a crash is sensed as a result of (acceleration or deceleration exceeding a predetermined threshold.

[0012] According to a preferred embodiment the force reservoir comprises a gas generator which may be pyrotechnically activated. The gas generator has an output inside the cylinder on one side of the piston to drive the piston along the cylinder pulling the band, engaging the connecting means and turning the retractor spool to shorten the belt webbing.

[0013] According to one embodiment the band has indexing holes or slots punched or cut along at least a part of its length at intervals corresponding to the spacing of teeth on an outer periphery of a drive wheel attached to the spool. As the band is pulled by the piston it tightens around the drive wheel and the indexing holes engage the teeth, turning the drive wheel and thus the spool and pulling in the webbing to secure the occupant.

[0014] Preferably the band is made of steel and it is stored compactly as a coil in a housing adjacent the cylinder. The band is routed around the inside perimeter wall of the housing, adjacent to, but distanced from, the teeth on the drive wheel connected to the spool. The natural spring tendency of the steel band will tend to push it against the inner wall of the housing away from the teeth. Thus after pretensioning forces have dissipated the band will naturally spring back away from the drive wheel, releasing the spool to rotate freely again. This is in contrast to traditional pretensioners which tend to remain locked after pretensioning.

[0015] A return spring may be located at or towards the end of the cylinder to push the piston back at the end of the pretensioning stroke.

[0016] Advantageously the piston comprises two piston members connected by a resilient assembly such as a coil spring. The piston member which is closest to the far end of the cylinder fits more snugly in the cylinder than the second piston, ie. it seals against the inside wall of the cylinder more effectively and slides less easily. During pretensioning both pistons move together along the cylinder pulling the band and rotating the spool. After pretensioning the gas dissipates and the piston moves back down the cylinder. The compression spring between the two pistons forces them apart and this moves the band back to the initial position where it is disengaged from the spool.

[0017] The cylinder is preferably sealed at one end around the band.

[0018] For a better understanding of the present invention, and to show how the same may be carried into effect, reference will now be made, by way of example, to the accompanying drawings, in which:

Figure 1 is a schematic cross section of a pretensioner according to the present invention.

Figure 2 is a cross section of part of the pretensioner of figure 1 before pretensioning.

Figure 3 is a cross section of part of the pretensioner of figure 1 immediately after pretensioning.

Figure 4 is an enlarged perspective view of part of figure 1.



[0019] In figure 1 a pretensioner cylinder or tube 1 is shown containing a piston 2 connected to a spring steel band 3. The pretensioner tube 1 may have a circular, square or any other cross-sectional shape and the piston 2 will have the same cross-section to fit snugly in the tube 1. The tube 1 may be straight as shown or have a circular or U shape as is convenient for the retractor package. The tube 1 is mounted to a plastic housing 4 which has a broad hollow chamber 5 in which the steel band 3 is stored in a coil 6.

[0020] The band 3 normally passes adjacent the inside wall of the housing 4 as shown by the solid line 7, through a guide section 21 at the top and to the coil 6 around a drive wheel 8. The drive wheel 8 is connected to a retractor spool (not shown) and is free to rotate until the pretensioner is fired. The drive wheel 8 has outwardly pointing teeth 9.

[0021] A return spring 10 is located at one end of the tube 1 and a gas tight seal 11 at the other.

[0022] The piston 1 as shown has an integral gas generator 12 fired by a pyrotechnic initiator connected to a source of electricity 13 by wires 14. The gas generator may be separate with an output facing into the tube 1 on the side of the piston 2 connected to the band 3.

[0023] In figures 2 and 3 the piston 1 is shown in more detail. A lower piston part 15 is connected to the band 3, for example by being moulded around an end of the band. The lower piston part 15 has a narrow extension section 16 which passes through a hole in the middle of an upper piston part 17. A coil spring 19 fits around the extension section 16 and biases the upper and lower parts away from each other.

[0024] When the pretensioner fires, gas 18 fills the tube 1 between the seal 11 and the lower piston part 15, moving the piston assembly along the tube 1 as shown in figure 3 and at 22 in figure 1. Movement of piston 2 to position 22 pulls the band 3 and tightens it around the drive wheel 21 as shown by the dotted line 23 tending to compress the spring 19 because the upper piston part 17 is a tighter fit in the tube 1 than the lower piston part 15. Subsequently the gas pressure reduces and the piston assembly moves back towards the position shown in figure 2 under action of the resilience of the steel band 3 and the coil spring 19. The upper and lower piston parts are pushed apart by the spring 19 and the band 3 disengages from the drive wheel 8 allowing the spool to rotate freely again.

[0025] Figure 4 is an enlarged perspective view of part of the band 3 showing spaced slots 20 which engage with the teeth 9 of the drive wheel 8. The teeth are advantageously saw tooth shapes as shown to facilitate release of the band after pretensioning. The band may typically be 10-15 mm wide.

[0026] The pretensioner of the invention provides an improved packaging capability since the steel band can be coiled very small. It also tends to have fewer parts and is cheaper to manufacture. Also, a lower power gas generator is needed than in some traditional pretensioners such as those known in the field as rack and pinion or ball type arrangements, because the energy required to move the steel band is relatively low.


Claims

1. A pretensioner for a vehicle safety restraint comprising:

a piston;

a cylinder housing the piston;

a force reservoir, activatable when a crash is sensed, to drive the piston along the cylinder;

a resilient band connected to the piston; and

means for selectively connecting the band to a retractor spool under a predetermined condition.


 
2. A pretensioner according to claim 1 wherein the force reservoir comprises a gas generator which is pyrotechnically activated.
 
3. A pretensioner according to claim 2 wherein the gas generator has an output in the cylinder on one side of the piston to drive the piston along the cylinder to pull the band into engagement with the connecting means to turn the retractor spool.
 
4. A pretensioner according to any one of the preceding claims wherein the connecting means comprises at least one indexing hole in the band and a toothed drive wheel attached to the spool to engage the indexing holes.
 
5. A pretensioner according to claim 4 comprising a plurality of indexing holes spaced along the band at intervals corresponding to the spacing of teeth on the outer periphery.
 
6. A pretensioner according to any one of the preceding claims wherein the band is made of steel.
 
7. A pretensioner according to any one of the preceding claims wherein the band is stored as a coil in the housing.
 
8. A pretensioner according to any one of the preceding claims comprising a return spring located at or towards the end of the cylinder to push the piston back down the cylinder at the end of a pretensioning stroke.
 
9. A pretensioner according to any one of the preceding claims wherein the piston comprises a first piston member connected to the band and a second piston member separated from the first member by a resilient assembly.
 
10. A pretensioner according to claim 9 wherein the resilient assembly is a coil spring.
 
11. A pretensioner according to claim 9 or 10 wherein the second piston member fits more snugly in the cylinder than the second piston member.
 
12. A pretensioner according to any one of the preceding claims wherein the cylinder is sealed at one end around the band.
 
13. A pretensioner according to any one of the preceding claims wherein the predetermined condition comprises the vehicle extending a predetermined acceleration or deceleration threshold.
 


Amended claims in accordance with Rule 86(2) EPC.


1. A pretensioner for a vehicle safety restraint comprising:

a piston;

a cylinder housing the piston;

a force reservoir, activatable when a crash is sensed, to drive the piston along the cylinder;

a resilient band connected to the piston; and

means for selectively connecting the band to a retractor spool under a predetermined condition

   wherein the force reservoir comprises a gas generator which has an output in the cylinder on one side of the piston to drive the piston along the cylinder to pull the band into engagement with the connecting means to turn the retractor spool.
 
2. A pretensioner according to claim 1 wherein the gas generator is pyrotechnically activated.
 
3. A pretensioner according to any one of the preceding claims wherein the connecting means comprises at least one indexing hole in the band and a toothed drive wheel attached to the spool to engage the indexing holes.
 
4. A pretensioner according to claim 3 comprising a plurality of indexing holes spaced along the band at intervals corresponding to the spacing of teeth on the outer periphery.
 
5. A pretensioner according to any one of the preceding claims wherein the band is made of steel.
 
6. A pretensioner according to any one of the preceding claims wherein the band is stored as a coil in the housing.
 
7. A pretensioner according to any one of the preceding claims comprising a return spring located at or towards the end of the cylinder to push the piston back down the cylinder at the end of a pretensioning stroke.
 
8. A pretensioner according to any one of the preceding claims wherein the piston comprises a first piston member connected to the band and a second piston member separated from the first member by a resilient assembly.
 
9. A pretensioner according to claim 8 wherein the resilient assembly is a coil spring.
 
10. A pretensioner according to claim 8 or 9 wherein the second piston member fits more snugly in the cylinder than the second piston member.
 
11. A pretensioner according to any one of the preceding claims wherein the cylinder is sealed at one end around the band.
 
12. A pretensioner according to any one of the preceding claims wherein the predetermined condition comprises the vehicle extending a predetermined acceleration or deceleration threshold.
 




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