Land vehicles – Wheeled – Attachment
Reexamination Certificate
1998-07-14
2002-07-16
Culbreth, Eric (Department: 3616)
Land vehicles
Wheeled
Attachment
C280S730200, C280S731000
Reexamination Certificate
active
06419265
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to self-contained airbag systems and more particularly to self-contained side impact airbag systems.
BACKGROUND OF THE INVENTION
Self-contained airbag systems contain all of the parts of the airbag system within a single package, in the case of mechanical implementations, and in the case of electrical or electronic systems, all parts except the primary source of electrical power and, in some cases, the diagnostic system. This includes the sensor, inflator and airbag. Potentially these systems have significant cost and reliability advantages over conventional systems where the sensor(s), diagnostic and backup power supply are mounted separate from the airbag module. In mechanical implementations in particular, all of the wiring, the diagnostic system and backup power supply are eliminated. In spite of these advantages, self-contained airbag systems have only achieved limited acceptance for frontal impacts and have so far not been considered for side impacts.
The “all-mechanical” self-contained systems were the first to appear on the market for frontal impacts but have not been widely adopted partially due to their sensitivity to accelerations in the vertical and lateral directions. These cross-axis accelerations have been shown to seriously degrade the performance of the most common all mechanical design that is disclosed in Thuen, U.S. Pat. No. 4,580,810. Both frontal and side impact crashes frequently have severe cross-axis accelerations.
Additionally, all-mechanical self contained airbag systems, such as disclosed in the Thuen patent, require that the sensor be placed inside of the inflator which increases the strength requirements of the inflator walls and thus increases the size and weight of the system. One solution to this problem appears in Breed, U.S. Pat. No. 4,711,466, but has not been implemented. This patent discloses a method of initiating an inflator through the use of a percussion primer in combination with a stab primer and the placement of the sensor outside of the inflator. One disadvantage of this system is that a hole must still be placed in the inflator wall to accommodate the percussion primer that has its own housing. This hole weakens the wall of the inflator and also provides a potential path for gas to escape.
Another disadvantage in the Thuen system that makes it unusable for side impacts, is that the arming system is sealed from the environment by an O-ring. This sealing method may perform satisfactorily when the module is mounted in the protected passenger compartment but it would not be satisfactory for side impact cases where the module would be mounted in the vehicle door where it can be subjected to water, salt, dirt, and other harsh environments.
Self-contained electrical systems have also not been widely used. When airbags are used for both the driver and the passenger, self-contained airbag systems require a separate sensor and diagnostic for each module. In contrast to mechanical systems the electronic sensor and diagnostic systems used by most vehicle manufacturers are expensive. This duplication and associated cost required for electrical systems eliminates most of the advantages of the self contained system.
Sensors located in the passenger compartment of a vehicle can catch most airbag-required crashes for frontal impacts, particularly if the occupants are wearing seatbelts. However, researchers now believe that there are a significant number of crashes which cannot be sensed in time in the passenger compartment and that this will require the addition of another sensor mounted in the crush zone (see, for example, Breed, D. S., Sanders, W. T. and Castelli, V. “A Critique of Single Point Sensing”, Society of Automotive Engineers Paper No. 920124). If true, this will eventually eliminate the use of self-contained airbag systems for frontal impacts.
Some of these problems do not apply to side impacts mainly because side impact sensors must trigger in a very few milliseconds when there is no significant signal at any point in the vehicle except where the car is crushing or location rigidly attached to this crush zone. Each airbag system must be mounted in the crush zone and generally will have its own sensor. Self contained airbag systems have heretofore not been used for occupant protection for side impacts which is largely due to the misconception that side impact sensing requires the use of elongated switches as is discussed in detail in U.S. Pat. No. 5,231,253, incorporated by reference herein. These elongated prior art side impact crush-sensing switches are not readily adaptable to the more compact self-contained designs. The realization that a moving mass sensor was the proper method for sensing side impacts has now led to the development of the side impact self contained airbag system of this invention. The theory of sensing side impacts is included in the '253 patent referenced above.
In electromechanical and electronic self-contained modules, the backup power supply and diagnostic system are frequently mounted apart from the airbag system. If a wire is severed during a crash but before the airbag deploys, the system may lose its power and fail to deploy. This is more likely to happen in a side impact where the wires must travel inside of the door. For this reason, mechanical self-contained systems have a significant reliability advantage over conventional electrical systems.
Finally, the space available for the mounting of airbag systems in the doors of vehicles is frequently severely limited making it desirable that the airbag module be as small as possible. Conventional gas generators use sodium azide as the gas generating propellant. This requires that the gas be cooled and extensively filtered to remove the sodium oxide, a toxic product of combustion. This is because the gas in exhausted into the passenger compartment where it can burn an occupant and is inhaled. If the gas is not permitted to enter the passenger compartment, the temperature of the gas can be higher and the products of combustion can contain toxic chemicals, such as carbon dioxide.
These and other problems associated with self contained airbag systems are solved by the invention disclosed herein.
OBJECTS AND SUMMARY OF THE INVENTION
This invention is primarily concerned with a novel self-contained airbag system for protecting occupants in side impacts. This is accomplished by using the sensors described in U.S. Pat. No. 5,231,253 referenced above, along with other improvements described in detail below. This invention is secondarily concerned with applying some of the features of the novel side impact system to solving some of the problems of prior art all mechanical airbag systems discussed above.
The sensitivity to cross axis accelerations of current all mechanical airbag systems, for example, is solved in the present invention, as discussed in U.S. Pat. No. 5,233,141, incorporated by reference herein, through the substitution of a hinged sensing element for the ball sensing mass in the Thuen patent.
The problems resulting from the hole in the inflator wall when a percussion primer is used as in Breed, U.S. Pat. No. 4,711,466, are solved in the present invention through the placement of sensitive pyrotechnic material in a cavity adjacent to the outside wall of the inflator and then using shock from a stab primer to initiate the pyrotechnic material and thus the inflator. An alternate solution, as discussed below, is to make the size of the hole created in the inflator by the action of the stab primer small so that the total quantity of gas which escapes into the sensor is small compared with the quantity of gas used to inflate the airbag.
Finally, in the self-contained airbag system disclosed herein, provision is made to exhaust the gas outside of the passenger compartment, into the vehicle doors, or other side areas of the vehicle. This permits the use of higher gas temperatures and alternate propellant formulations, such as nitro-cellulose, which produce toxic combustion products. Both of these changes redu
Automotive Technologies International Inc.
Culbreth Eric
Roffe Brian
LandOfFree
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