Land vehicles: bodies and tops – Bodies – Body shell
Reexamination Certificate
2001-08-10
2003-05-06
Dayoan, D. Glenn (Department: 3612)
Land vehicles: bodies and tops
Bodies
Body shell
C280S751000, C296S039100
Reexamination Certificate
active
06557929
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method and apparatus for absorbing energy when a body part of an occupant of a vehicle contacts an interior part of the vehicle, thereby reducing the trauma caused by the impact.
2. Background Art
Automobile interiors are designed to incorporate both active and passive occupant protection systems. An example of an active occupant protection system is the well known inflatable air bag that is deployed upon impact. Passive impact absorbing systems include foam padding, ribs on plastic trim parts, aluminum honeycomb pads, and the like. One example of a static system is energy absorbing elements incorporated into a headliner. Vehicle headliners line the inner surface of a vehicle roof and may include foam padding, aluminum honeycomb structures, paper, foil and plastic pre-forms. One product known as “O-Flex” that is sold by a company of the same name comprises a wound paper/foil member formed in a generally square tube configuration.
The cost of engineering and manufacturing a wide variety of impact absorbing products adds to the total cost of the vehicle. The use of a plethora of different impact absorption products complicates computer-aided design and computer simulation for optimization of impact absorption systems. Energy absorbing countermeasures must be designed to provide specified levels of impact protection within certain space limitation parameters. Availability of a myriad of different impact countermeasure products increases the cost of engineering due to the difficulty of matching products to applications. Further, many impact energy absorbing countermeasure products are relatively high-cost components.
With prior art impact absorbing products, design flexibility is limited in many instances and optimum performance for various impact mechanics systems of various vehicles is difficult to achieve.
Aluminum honeycomb energy absorbing parts or O-Flex type products are complex sub-assemblies. Such products may be made of aluminum honeycomb material or exotic combinations of materials to meet exacting impact absorption standards within limited spaces defined between decorative trim members and structural body parts.
The use of aluminum, cardboard, plastic, and other materials also results in additional cost due to the need to meet performance standards within design parameter temperature specifications. Different types of plastics, foams, and composite materials all have different temperature characteristic profiles that require rigorous product testing to assure compliance with impact standards and constant performance at all foreseeable temperatures.
There is a need for an impact absorption product that offers maximum design flexibility and ensures optimum impact absorbing performance in a variety of vehicles. There is also a need for a low cost impact energy absorbing countermeasure product that may be manufactured using efficient metal stamping processes. There is also a need for an all metal impact countermeasure product that is unaffected by temperature and is less dependent on rate of strain, thus lending itself to simplified computer simulation and optimization of designs. There is also a need for impact countermeasure products that may be used in headliners, roof support pillars, doors, dashboards, sunroof frames, and the like.
These and other needs and problems associated with prior art products are addressed by the present invention as summarized below.
SUMMARY OF THE INVENTION
According to one aspect of the present invention, a vehicle interior is provided with an impact absorbing assembly. The impact absorbing member is attached to a structural component with the vehicle interior. The impact absorbing member may comprise a sheet form body portion and a plurality of tabs extending from the body portion. The tabs are partially separated from the body portion and a bendable hinge connection is provided along at least one edge of each tab where the tabs are still attached to the body portion but are bent so that the tab extends from the body portion. A covering layer is applied to the body portion on the side facing away from the structural component.
According to another aspect of the invention, an impact absorbing assembly is provided on an existing structural component of a vehicle interior. The structural component of the vehicle interior functions as an impact absorbing member having a body portion and a plurality of tabs extending from the body portion. The tabs are partially separated from the body portion with a bendable hinge connection being provided along at least one edge of each tab. A covering layer is applied to the structural component to cover the tabs for aesthetic purposes.
According to another aspect of the invention, a method of making an impact absorbing assembly for a vehicle is provided. The method includes the step of providing a sheet metal member and partially severing at least one tab from the sheet metal member. The tab is bent to extend outwardly from one side of the sheet metal member to thereby form a bendable hinge connection between the body portion and the portions of the tab that are not severed from the body portion where the tab is bent outwardly from the body portion.
According to another aspect of the method of the present invention, a method is disclosed for absorbing impact forces that are applied when an occupant of a vehicle hits a structural component of a vehicle interior. The method includes providing on a structural component an impact absorbing member having a sheet form body portion and a plurality of tabs extending from the body portion. The tabs are partially separated from the body portion with a bendable hinge connection being provided along at least one edge of each tab. When a force is applied to the occupant of the vehicle, it may cause the occupant to contact the impact absorbing member with an amount of force greater than a threshold value. When the occupant contacts the impact absorbing member with a force grater than the threshold value, the tabs are plastically deformed thereby absorbing a part of the force applied to the impact absorbing member by the occupant.
According to other aspects of the invention, the tabs may extend either toward or away from the structural component. The tabs may be arranged in rows or columns. The tabs may be contoured, either individually or relative to adjacent tabs. The impact absorption characteristics of the assemblies may be modified by changing the height of the tabs, thickness of the material, spacing of the tabs, angle of the tab relative to the body portion and arrangement of the tabs on the body portion. The impact absorption characteristics of the assembly may also be modified by changing the geometric configuration of the tabs. The tabs may be flat tabs or may include stiffening ribs, a plurality of planar walls, or curved walls. The tabs may be arranged in groups in a circular pattern around an opening or may be formed to include two or more bendable hinge connections to the body portion. The tabs may also be formed in a partially circular shape or may be formed with a central wall having two sidewalls connecting the central wall to the body portion. The tabs may be formed to extend from one or both sides of the body portion of the sheet and may be formed in a wide variety of geometric shapes including an L-shaped configuration, or the like.
According to another aspect of the invention, the body portion of the impact absorbing member may be formed as a flat or curved member. The body portion may also include one or more stiffening ribs. Further, the body portion may include surface features such as holes or metal stake fasteners formed around a pierced hole that provide jagged edges that facilitate securing the impact absorbing member to a structural member or the covering layer.
According to another aspect of the invention, the structural member may be a roof support pillar, dashboard, roof edge, or other interior part that is covered by a molded plastic trim piece. The i
Byma George B.
Chickmenahalli Arun A.
Fox David M.
Grajewski Joseph J.
Hubbert Timothy R.
Dayoan D. Glenn
Lear Corporation
Morrow Jason
Panagos Bill C.
LandOfFree
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