This invention relates to an outside handle assembly for a motor vehicle. More particularly, the invention relates to a locking mechanism for preventing inadvertent release of a motor vehicle door when a handle portion of a handle assembly moves at an acceleration above a predetermined threshold.
Motor vehicles include at least one outside door handle for releasing a door latch mechanism in order to open a door. Typically, a user actuates the outside door handle by pivoting a handle portion relative to a base. The handle portion may, however, also be pivoted when the outside door handle is exposed to a high inertia force. The pivoting of the handle portion relative to the base in response to the high inertia force can cause inadvertent opening of the door.
In recent years, there has been development of locking mechanisms to attempt to prevent the opening of a vehicular door in the event of such a high inertia force. While the existing mechanisms work for some crash situations, there is a need in the art for a locking mechanism that does not allow the vehicle door to open in the event of a high acceleration impact or during a vehicle rollover.
According to one aspect of the invention, there is provided a handle assembly for selectively allowing the door latch of a door of a motor vehicle to be released. The handle assembly includes a base fixedly secured to the door. The handle assembly also includes a handle portion and a lock trigger. The handle portion is operatively connected to a door latch mechanism effectuating the opening of the door. The lock trigger is movably engaged with the handle portion to allow or disallow the movement of the handle assembly and hence the opening of the door.
Advantages of the invention will be readily appreciated as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings wherein:
Referring to
Referring to
The handle assembly 10 also includes a lock trigger 28 pivotally coupled to the base 18 at the lock edge 20b of the aperture 20 for preventing inadvertent release of the door latch mechanism 16 when an unintended force causes the handle portion 22 to pivot relative to the base 20. The lock trigger 28 moves inwardly to unlock the handle portion 22 and back towards the outer face of the base 18 to lock the handle portion 22. The lock trigger 28 locks the handle portion 22 by abutting thereagainst preventing the pivotal movement of the handle portion 22. Referring to
Referring to
The handle portion 22′ is pivotally coupled to the base 18′ by a first pivot pin 29. A handle bias spring 30, operatively connected to the pivot pin 29, biases the handle portion 22′ towards the base 18′. The handle portion 22′ further includes an internal handle arm 32 and a grip 24′ that is manually grabbed by a user for pivoting the handle portion 22′ relative to the base 18′ in order to actuate the handle assembly 10′. The handle portion 22′ pivots about the pivot pin 29 and is operatively connected to the door latch mechanism 16′. Preferably the grip 24′ is substantially L-shaped to facilitate a user pulling the handle portion 22′ with a cupped hand, but it should be appreciated that the grip 24′ could be a variety of shapes. The handle portion 22′ also includes a lock tab 44 and will be discussed in more detail hereinbelow.
The lock trigger 28′ is pivotally coupled to the base 18′ by a second pivot pin 35. The lock trigger 28′ includes a lock arm 36 that abuts the grip 24′ to prevent the user from grabbing and pulling the grip 24′ without first activating the lock trigger 28′ by pivoting (pushing) the lock trigger 28′ towards the base 18′. The handle assembly 10′ further includes a hook lever 40 pivotally coupled to the base 18′ by a third pivot pin 42, for preventing pivoting of the handle portion 22′ until the lock trigger 28′ has been activated. A positioning spring 43, operatively connected to the third pivot pin 42, biases the hook lever 40 to selectively abut against the lock trigger 28′ and interfere with the movement thereof. The hook lever 40 includes a handle tab 46 that extends upwardly therefrom. When locked, the handle tab 46 interferes with the handle portion 22′ by blocking the path of the lock tab 44, thus preventing pivoting of the handle portion 22′.
In operation, the handle assembly 22′ starts in the locked position as shown in
Referring to
With this configuration, the handle assembly 10″ operates as a strap type outside handle as is known in the art. Typically, the user will grasp the grip 24″ of the handle portion 22″ and pull the handle portion 22″ outboard relative to the base 18″. Pulling the handle portion 22″ causes the door end 56 of the handle portion 22″ to pivot relative to the door 12″ while the leg 60 at the base end 58 slides through the leg aperture 50 allowing the base end 58 of the handle portion 22″ to extend away from the base 18″.
The leg 60 of the handle portion 22″ includes a stop tab 62 having a fixed end 63 and an opposite stop end 64. The fixed end 63 of the stop tab 62 is fixedly secured to the leg 60 while the stop end 64 is movable relative to the leg 60 in a springboard-like motion. The stop end 64 of the stop tab 62 includes a boss 65 which abuts the relief 51 of the leg aperture 50, thereby preventing the leg 60 from sliding through the leg aperture 50 in an outboard direction.
The lock trigger 28″ is located on the inboard side 54 of the handle portion 22′. The lock trigger 28″ selectively disengages the boss 65 of the stop tab 62 from the relief 51 of the leg aperture 50 to allow the sliding of the leg 60 through the aperture 50 and thereby release the door 12″. Referring to
In operation, the lock trigger 28″ prevents the normal operation of the user pulling the handle portion 22″ to open the door 12″ unless the lock trigger 28″ is first activate. When in the locked position, the cantilever spring 70 of the lock trigger 28″ urges the lock trigger 28″ away from the handle portion 22″. When in this position, the tip 74 of the lock trigger does not pressingly engage the boss 65 of the stop tab 62. As such, the boss 65 abuts the relief 51 of the leg aperture 50, thereby preventing movement of the handle portion 22″ in the outboard direction by preventing the sliding movement of the leg 60 through the leg aperture 50. Thus, if a force is applied to pull the handle portion 22″ in an outboard direction without engaging the lock trigger 28″, the handle assembly 10″ is locked and will not allow release of the door 12″.
To unlock the handle assembly 10″ and release the car door 12″, the operator must first pull the lock trigger 28″ toward the handle portion 22″ (outward movement relative to the door 12″). As the lock trigger 28″ is urged toward the handle portion 22″, the tip 74 of the lock trigger 28″ moves over the boss 65 of the stop tab 62, pressing the stop end 64 of the stop tab 62 towards the leg 60. Once the stop tab 62 is pressed towards the leg 60, the boss 65 no longer abuts the relief 51 of the leg aperture 50, unlocking the handle assembly 10″ by allowing the leg 60 to slide through the aperture 50. Once unlocked, the operator can pull the handle portion 22″ in an outboard direction to activate the door latch mechanism 16″ and release the door 12″.
The invention has been described in an illustrative manner, and it is to be understood that the terminology which has been used, is intended to be in the nature of words of description rather than of limitation.
Many modifications and variations of the present invention are possible in light of the above teachings. It is, therefore, to be understood that within the scope of the appended claims, the invention may be practiced other than as specifically described.
This application is a divisional application of U.S. application Ser. No. 11/338,409, filed Jan. 24, 2006 and entitled “Lock Out Mechanism For Vehicle Door Outside Handles” which claims priority to and all the benefits of U.S. provisional application No. 60/646,759, filed Jan. 24, 2005.
Number | Date | Country | |
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60646759 | Jan 2005 | US |
Number | Date | Country | |
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Parent | 11338409 | Jan 2006 | US |
Child | 12284509 | US |