Material or article handling – Process – Of moving intersupporting articles into – within – or from...
Reexamination Certificate
2002-07-29
2004-04-27
Krizek, Janice L. (Department: 3652)
Material or article handling
Process
Of moving intersupporting articles into, within, or from...
C206S509000, C206S511000, C280S033998, C410S026000, C414S788200
Reexamination Certificate
active
06726438
ABSTRACT:
TECHNICAL FIELD
This invention relates to the compact stacking of vehicle chassis for optimized storage and shipping efficiency.
BACKGROUND OF THE INVENTION
Mobility, being capable of moving from place to place or of moving quickly from one state to another, has been one of the ultimate goals of humanity throughout recorded history. The automobile has likely done more in helping individuals achieve that goal than any other development. Since its inception, societies around the globe have experienced rates of change in their manner of living that are directly related to the percentage of motor vehicle owners among the population.
Prior art automobiles and light trucks include a body, the function of which is to contain and protect passengers and their belongings. Bodies are connected to the numerous mechanical, electrical, and structural components that, in combination with a body, comprise a fully functional vehicle. The nature of the prior art connections between a vehicle body and vehicular componentry may result in certain inefficiencies in the design, manufacture, and use of vehicles. Three characteristics of prior art body connections that significantly contribute to these inefficiencies are the quantity of connections; the mechanical nature of many of the connections; and the locations of the connections on the body and on the componentry.
In the prior art, the connections between a body and componentry are numerous. Each connection involves at least one assembly step when a vehicle is assembled; it is therefore desirable to reduce the number of connections to increase assembly efficiency. The connections between a prior art body and prior art vehicular componentry include multiple load-bearing connectors to physically fasten the body to the other components, such as bolts and brackets; electrical connectors to transmit electrical energy to the body from electricity-generating components and to transmit data from sensors that monitor the status of the componentry; mechanical control linkages, such as the steering column, throttle cable, and transmission selector; and ductwork and hoses to convey fluids such as heated and cooled air from an HVAC unit to the body for the comfort of passengers.
Many of the connections in the prior art, particularly those connections that transmit control signals, are mechanical linkages. For example, to control the direction of the vehicle, a driver sends control signals to the steering system via a steering column. Mechanical linkages result in inefficiencies, in part, because different driver locations in different vehicles require different mechanical linkage dimensions and packaging. Thus, new or different bodies often cannot use “off-the-shelf” components and linkages. Componentry for one vehicle body configuration is typically not compatible for use with other vehicle body configurations. Furthermore, if a manufacturer changes the design of a body, a change in the design of the mechanical linkage and the component to which it is attached may be required. The change in design of the linkages and components requires modifications to the tooling that produces the linkages and components.
The location of the connections on prior art vehicle bodies and componentry also results in inefficiencies. In prior art body-on-frame architecture, connection locations on the body are often not exposed to an exterior face of the body, and are distant from corresponding connections on the componentry; therefore, long connectors such as wiring harnesses and cables must be routed throughout the body from componentry. The vehicle body of a fully-assembled prior art vehicle is intertwined with the componentry and the connection devices, rendering separation of the body from its componentry difficult and labor-intensive, if not impossible. The use of long connectors increases the number of assembly steps required to attach a vehicle to its componentry.
Furthermore, prior art vehicles typically have internal combustion engines that have a height that is a significant proportion of the overall vehicle height. Prior art vehicle bodies are therefore designed with an engine compartment that occupies about a third of the front (or sometimes the rear) of the body length. Compatibility between an engine and a vehicle body requires that the engine fit within the body's engine compartment without physical part interference. Moreover, compatibility between a prior art chassis with an internal combustion engine and a vehicle body requires that the body have an engine compartment located such that physical part interference is avoided. For example, a vehicle body with an engine compartment in the rear is not compatible with a chassis with an engine in the front.
SUMMARY OF THE INVENTION
A self-contained chassis has substantially all of the mechanical, electrical, and structural componentry necessary for a fully functional vehicle, including at least an energy conversion system, a suspension and wheels, a steering system, and a braking system. The chassis has a simplified, and preferably standardized, interface with connection components to which bodies of substantially varying design can be attached. X-by-wire technology may be utilized to eliminate mechanical control linkages. Fuel cell technology may also be implemented in the energy conversion system.
A result is the reduction in the amount of time and resources required to design and manufacture new vehicle bodies. Body designs need only conform to the simple attachment interface of the chassis, eliminating the need to redesign or reconfigure expensive components.
Further, a multitude of body configurations to share a common chassis, enabling economies of scale for major mechanical, electrical, and structural components.
Connection components, exposed and unobstructed, increase manufacturing efficiency because attachment of a body to the chassis requires only engagement of the connection components to respective complementary connection components on a vehicle body.
Vehicle owners can increase the functionality of their vehicles at a lower cost than possible with the prior art because a vehicle owner need buy only one chassis upon which to mount a multitude of body styles.
A substantially flat and relatively thin vehicle chassis enables compact storage of multiple vehicle chassis. This compact storage is achieved by high density vertical stacking of the vehicle chassis, which improves packaging and shipping efficiency, reduces plant floor usage for storage during or before testing, assembly or shipping processes, and may reduce overall manufacturing, assembly, shipping, and/or vehicle costs. In particular, as viewed in the various figures, the chassis is characterized by the absence of a front engine compartment, with energy conversion, energy storage, steering and braking systems contained substantially within a generally flat frame, having substantially flat upper and lower faces to facilitate optimal stacking efficiency.
According to an aspect of the invention, a vehicle chassis includes a structural frame; a steering system mounted with respect to the structural frame; a by-wire braking system mounted with respect to the structural frame; an energy conversion system mounted with respect to the structural frame and controllable by wire; and at least one vertical load bearing member mounted with respect to the structural frame and configured to bear a vertical load of a second chassis stacked thereon.
A method for improving chassis packaging efficiency includes vertically stacking a first chassis above a second chassis, wherein the first chassis and the second chassis include a structural frame, a by-wire steering system mounted with respect to the structural frame, a by-wire braking system mounted with respect to the structural frames, and a by-wire energy conversion system mounted with respect to the structural frame. The method may further include employing a pallet to facilitate the stacking. The pallet may include a horizontal member configured to support the first chassis above the second chassis and at
Borroni-Bird Christopher E.
Chernoff Adrian B.
Shabana Mohsen D.
Vitale Robert Louis
General Motors Corporation
Krizek Janice L.
Marra Kathryn A.
LandOfFree
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