Two stage crush zone latch

Information

  • Patent Grant
  • 6581988
  • Patent Number
    6,581,988
  • Date Filed
    Wednesday, October 31, 2001
    23 years ago
  • Date Issued
    Tuesday, June 24, 2003
    21 years ago
Abstract
A latch (10) having a housing (12, 14, 16, 18) to which a ratchet (38) is pivotably mounted by a rivet (40) for rotation about a first axis between a latched and unlatched configuration. A slot (44) extents through the latch and has a first arcuate portion (100) and a first radial portion (102). A pawl assembly (48, 58, 60, 70) has a roller (48) extending through the slot (44). The pawl assembly is mounted to the housing for movement of the roller relative to the ratchet (38) between a first arcuate portion and a first radial portion of the slot. The rivet (40) is deformable to allow the ratchet (38) to rotate about the roller axis upon the ratchet (38) being exposed to an unlatching force above a predetermined level. A flange (108) extends from the housing across the ratchet (38) to limit the pivotal movement of the ratchet (38) about the roller axis.
Description




FIELD OF THE INVENTION




The present invention relates to vehicle door latches. In particular, this invention relates to a vehicle door latch having a two stage crush zone.




BACKGROUND OF INVENTION




Vehicle door latches must meet specified safety standards. In the United States of America, the latch must meet Federal Motor Vehicle Safety Standard (FMVSS) 206 which requires that the latch and striker assembly shall not separate when a high force is applied. For testing, the latches are loaded to resist loads in the range of 8,900 to 10,700 N, which results in reaction forces for the ratchet and the pawl pins of between 20,000 and 30,000 N. However, in normal use conditions, the latch experiences loads in the range of 100 to 300 N which corresponds to a seal force. As a result, conventional latches arc over-designed in size and cost.




SUMMARY OF THE INVENTION




The disadvantages of the prior art may be overcome by providing a latch which will meet all of the design criteria, but will have a predictable and controlled deformation during high load conditions to modify force directions and locations to the strongest portions of the latch and thereby resist separation.




More particularly, a latch is provided which has a housing and a ratchet pivotably mounted to the housing by a rivet for rotation about a first axis between a latched and an unlatched configuration. The housing has a slot extending through it with an arcuate portion generally coaxial with the first axis and a first radial portion extending generally radially away from the first axis. The latch further has a pawl assembly with a roller extending through the slot and mounted to the housing for movement of the roller relative to the ratchet between the first arcuate portion and the first radial portion of the slot. The roller has a roller axis. The rivet is deformable to allow the ratchet to rotate about the roller axis upon the ratchet being exposed to an unlatching force above a predetermined level. A flange extends from the housing across the ratchet to limit pivotal movement of the ratchet about the roller axis.




The roller may be mounted to the housing by a pair of wheels, one on either side of the ratchet, and rotatable relative to the housing about a second axis generally parallel to the first axis.




The latch may include a ratchet spring acting between the ratchet and the housing for urging the ratchet toward the unlatched configuration.




The latch may also have a pawl spring extending between the housing and at least one of the wheels for urging the roller toward the arcuate portion of the slot.




The latch may include an actuator having a Bowden cable with an outer portion fixedly secured to the housing and an inner connected to the pair of the wheels for rotating the pair of wheels to move the roller into the arcuate portion of the slot.




The ratchet may have a second radial portion spaced apart from the first radial portion and extending generally radially from the first axis the the roller may engage the second radial portion to retain the ratchet in the unlatched configuration. The second radial portion may further have a tapered comer along one side thereof to guide the roller into the arcuate portion of the latch in response to a force tending to move the ratchet from its unlatched towards its unlatched configuration.




The latch housing may include a front housing, a rear housing generally parallel to and spaced apart from the front housing, a front mounting plate adjacent the first housing and a rear mounting plate adjacent the rear housing. The ratchet may be mounted between the front and rear mounting plates and each wheel of the pair of wheels may be rotatably mounted to a respective of the front and rear housings.




The flange may be defined by at least one of the front and rear mounting plates.




The ratchet spring may be mounted between the front housing and front mounting plate and the front housing provided with a recess for accommodating the ratchet spring. The pawl spring may be mounted between the rear housing and the rear mounting plate provided with a recess for accommodating the pawl spring.




The rivet may extend between and be secured to the front and rear housings.











BRIEF DESCRIPTION OF THE DRAWINGS




In drawings which illustrate embodiments of the invention,





FIG. 1

is an exploded perspective view of a latch of the present invention;





FIG. 2

is a front elevational view of the latch of

FIG. 1

in the open or unlatched position, with cover removed;





FIG. 3

is a front elevational view of the latch of

FIG. 1

in the closed or latched position, with cover removed; and





FIG. 4

is a front elevational view of the latch of

FIG. 1

under high load test conditions.











DESCRIPTION OF THE PREFERRED EMBODIMENT




Referring to

FIG. 1

, there is shown a latch


10


of the present invention. The latch


10


comprises a housing including front housing


12


, rear housing


14


, front mounting plate


16


and rear mounting plate


18


. Each of the housings


12


and


14


, and the plates


16


and


18


has a U-shaped mouth


20


,


22


,


24


and


26


, respectively, which when assembled, a align to present a mouth which receives a striker (not illustrated). Each mounting plate


16


and


18


has a central bore


32


and


34


, respectively, defining a first axis of rotation


36


.




Ratchet


38


is positioned between mounting plates


16


,


18


and is pivotally mounted on a rivet


40


through central bore


46


. The rivet


40


extends through bores


32


,


34


of mounting plates


16


,


18


. Ratchet


38


has a U-shaped mouth


42


. Mouth


42


of ratchet


38


cooperates with the mouth of the housing as the ratchet


38


rotates to secure a striker in a latched condition.




The ratchet


38


also has a slot


44


. Referring to

FIGS. 2 and 3

, the slot


44


has an arcuate portion


100


, a first radial portion


102


, and a second radial portion


104


. Arcuate portion


100


extends circumferentially relative to the central bore


46


. First radial portion


102


is spaced circumferentially relative to the second radial portion


104


. The slot


44


receives roller


48


of the pawl assembly.




Referring back to

FIG. 1

, the pawl assembly generally comprises roller


48


, wheels


58


and


60


and pawl spring


70


.




Mounting plates


16


and


18


each has an arcuate slot


50


and


52


, respectively, which align with the radial portions


102


and


104


of slot


44


when the latch


10


is assembled. Roller


48


extends through arcuate slots


50


and


52


and is slidable therein. In normal use conditions, roller


48


is floating between the ratchet


38


and the arcuate slots


50


and


52


.




Front housing


12


and rear housing


14


each has a circular recess


54


,


56


, respectively, which receives wheels


58


and


60


. Wheels


58


and


60


are mounted to rotate about a second axis spaced from the first axis of rotation


36


. Each of wheels


58


and


60


has an axially extending pin


62


,


64


which engage opposite ends of the roller


48


. As is now apparent, rotation of the wheels


58


and


60


moves the roller


48


in the slot


44


radially inwardly and outwardly between unlatching and latching positions. When roller


48


is radially inwardly, ratchet


38


is free to rotate. When the roller


48


is radially outwardly in either the radial portions


102


or


104


, the ratchet


38


is prevented from rotating at least in the unlatching sense. When the roller


48


is radially outward in radial portion


102


, the latch


10


is in the latched condition. When the roller


48


is radially outward in radial portion


104


or radially inward in the distal end of arcuate portion.


100


, the latch


10


is in the unlatched condition.




Ratchet spring


66


extends between front housing


12


and the ratchet


38


to bias the ratchet


38


in an open or unlatched condition. Preferably, front housing


12


has a recess


68


sized to receive ratchet spring


66


.




Pawl spring


70


extends between rear housing


14


and wheel


60


to bias the pawl assembly into a latching condition, i.e. urging roller


48


to the radially outward position or latching position. Preferably, rear housing


14


has a recess


69


sized to receive spring


70


.




Rear housing


14


has a flange


72


which is spaced from the pawl assembly. Flange


72


has a U-shaped opening


74


which receives Bowden wire


76


. Bowden wire


76


is fitted with a U-shaped hooking member


78


. The hooking member


78


has a pair of hooks


80


which engage the pins


82


,


84


. Actuation of the Bowden wire


76


rotates the pawl assembly against the bias of the pawl spring


70


to move roller


48


from the radially outward position or latching position to the radially inward position or unlatching position. Upon relaxation of the Bowden wire


76


, the bias of pawl spring


70


returns the pawl assembly back to the latching position




Referring to

FIGS. 2 and 3

, the operation of the latch


10


of the present invention will be described. The arcuate length of arcuate portion


100


limits the travel of the ratchet


38


between the fully open or unlatched position (

FIG. 2

) and the closed or latched position (FIG.


3


). As the ratchet


38


rotates, the mouth


42


of the ratchet


38


cooperates with housing mouth to latch a striker.




In the open position, roller


48


will be in the distal end of arcuate portion


100


. Roller


48


will be rotated inwardly against the bias of pawl spring


70


. As the ratchet


38


is rotated in a closing sense in response to engagement with a striker, the ratchet


38


will rotate initially until the roller


48


is able to enter radial portion


104


. The bias of pawl spring


70


will urge the roller


48


outwardly allowing the roller


48


to move outwardly along radial portion


104


. In this position, the latch


10


will be in the secondary closed condition. Radial portion


104


has a tapered comer


106


which biases the ratchet


38


to move in a closing or latching sense yet prevents rotation in the opening or unlatching sense.




Further rotation of the ratchet


38


in the closing or latching sense, will urge the roller to travel relatively along the arcuate portion


100


until the roller


48


is able to travel outwardly along radial portion


102


. Once roller


48


is in the outward or latching position, ratchet


38


is releasably secured in the latched position.




In the latched position, the ratchet


38


is supported at both the pin


40


and the roller


48


. The pin


40


and the roller


48


cooperate to resist an opening force. To release, the Bowden wire


76


is pulled which responsive rotates wheels


58


,


60


which in turn moves roller


48


radially inwardly to the unlatching position. The bias of ratchet spring


66


rotates the ratchet


38


in the unlatching sense releasing the striker.




In order to test the latch according the FMVSS Standards, a test force in the range of 8,900 to 10,700 N is applied to the ratchet


38


at the mouth


42


. The ratchet


38


will be urged in the unlatching sense. The roller


48


will engage the plates


16


,


18


and resist further movement of the ratchet in the unlatching sense. At this point, further forces will plastically deform pin


40


allowing the ratchet


38


to rotate about the axis of the roller


48


. The ratchet


38


will rotate until it contacts the front flange


108


of plate


18


. Once the ratchet


38


contacts the front flange


108


, the forces transmitted through the pin


40


will reduce significantly without breakage. The majority of the test forces will be transmitted through the front flange


108


and the plates


16


,


18


, through roller


48


and thereby resist opening even under the test forces.




As is now apparent to those skilled in the art, the pin


40


is designed to plastically deform at forces above the normal use conditions, about 300 N but well below the test loads of 8,900 to 10,700 N. The pin


40


is designed to deform well before the roller


48


deforms. However, if the pin were to break, such failure would not affect the latch response to the higher loads.




Although the invention has been described with reference to certain specific embodiments, various modifications thereof will be apparent to those skilled in the art without departing from the scope of the invention.



Claims
  • 1. A latch comprising:a housing; a ratchet pivotably mounted to said housing by a rivet for rotation about a first axis between a latched and unlatched configuration; said ratchet having a slot extending therethrough with an arcuate portion generally concentric with said first axis and a first radial portion extending generally radially from said first axis; a pawl assembly having a roller extending through said slot and mounted to said housing for movement relative to said ratchet between said first arcuate portion and said first radial portion, said roller having a roller axis, said pawl assembly operatively coupled between said housing and said ratchet for moving said roller from said arcuate portion of said slot with said ratchet in said unlatched configuration to said first radial portion of said slot with said ratchet in said latched configuration; and a flange extending from said housing across said ratchet to limit pivotal movement of said ratchet about said roller axis; whereby said rivet is deformable to force said ratchet to rotate about said roller axis when said roller is seated in said first radial portion and said ratchet is in said latched configuration upon said ratchet being exposed to an unlatching force above a predetermined threshold value.
  • 2. A latch as claimed in claim 1 wherein said roller is mounted to said housing by a pair of wheels rotatable relative to said housing about a second axis generally parallel to said first axis, said ratchet extending between said pair of wheels.
  • 3. A latch as claimed in claim 2 further having a ratchet spring acting between said ratchet and said housing for urging said ratchet toward said unlatched configuration.
  • 4. A latch as claimed in claim 3 further having a pawl spring extending between said housing and at least one of said wheels for urging said roller toward said arcuate portion of said slot.
  • 5. A latch as claimed in claim 4 further having an actuator having a Bowden cable with an outer portion fixedly secured to said housing and an inner portion connected to said pair of wheels for rotating said pair of wheels to move said roller into said arcuate portion of said slot.
  • 6. A latch as claimed in claim 1 wherein said ratchet has a second radial portion spaced apart from said first radial portion and extending generally radially from said first axis; said roller engages said second radial portion to retain said ratchet in said unlatched configuration; said second radial portion has a tapered corner along one side thereof to guide said roller into said arcuate portion of said latch in response to a force tending to move said ratchet from said unlatched configuration toward said latched configuration.
  • 7. A latch as claimed in claim 6 wherein said housing includesa front housing, a rear housing generally parallel to and spaced apart from said first housing; a front mounting plate adjacent said front housing; a rear mounting plate adjacent said rear housing; said ratchet is mounted between said front and rear mounting plates; and each wheel of said pair of wheels is rotatably mounted to a respective of said front and rear housings.
  • 8. A latch as claimed in claim 7 wherein said flange is defined by at least one of said front and rear mounting plates.
  • 9. A latch as claimed in claim 8 wherein:said ratchet spring is mounted between said front housing and said front mounting plate; said front housing has a recess for accommodating said ratchet spring; said pawl spring is mounted between said rear housing and said rear mounting plate; said rear housing has a recess for accommodating said pawl spring.
  • 10. A latch as claimed in claim 9 wherein said rivet extends between and is secured to said front and rear housings.
Parent Case Info

This application claims the benefit of Provisional application Ser. No. 60/133,596, filed May 11, 1999.

PCT Information
Filing Document Filing Date Country Kind
PCT/CA00/00551 WO 00
Publishing Document Publishing Date Country Kind
WO00/68537 11/16/2000 WO A
US Referenced Citations (12)
Number Name Date Kind
3331624 Pugh Jul 1967 A
4172768 Cerdan Oct 1979 A
4875724 Gruber Oct 1989 A
4995654 Nishigami et al. Feb 1991 A
5046769 Rimbey et al. Sep 1991 A
5074603 Brackmann Dec 1991 A
5308130 Lee May 1994 A
5382062 Kostler Jan 1995 A
5860683 Sekino Jan 1999 A
5865481 Buschmann Feb 1999 A
5896767 Gomi Apr 1999 A
6010164 Yoda Jan 2000 A
Provisional Applications (1)
Number Date Country
60/133596 May 1999 US