Operating weight

Abstract: Heavy-duty diesel vehicles are substantial contributors of oxides of nitrogen (NOx) and particulate matter (PM) while carbon monoxide and hydrocarbon (HC) emissions from diesel vehicles receive less attention. Truck emissions inventories have traditionally employed average fuel economy and engine efficiency factors to translate certification into distance-specific (g/mi) data, so that inventories do not take into account the real effects of truck operating weight on emissions. The objective of this research was to examine weight corrections for class 7 and 8 vehicles (over 26 000 lb (11 793 kg) gross vehicle weight) from a theoretical point of view and to present a collection of original data on the topic. It was found by combining an empirical equation with theoretical truck loads that the NOx emissions increased by ∼54% for a doubling of test weight. Emissions data were gathered from specific tests performed using different test weights and using various test schedules, which can consist of cycles or ro...

Abstract: Advanced supplemental restraint system associated with occupant detection and weight responsive classification system operable for controlling resistance of the supplemental restraint system such that in an accident, an occupant of the vehicle impacts the supplemental restraint system without injury. The supplemental restraint system is associated with a weight-sensing unit mounted to one or more seats positioned between the seat mounting frame and the floor of the vehicle for sensing the weight of a sitting occupant and for classifying the occupant accordingly, a computerized system is configured for calculating an operating weight value corresponding to the classified weight value, and an airbag system is disposed, comprising one or more airbags in association with a deployment unit configured to inflate the airbags with a deployment force and acceleration that is proportionate to the operating weight value when a collision force is sensed above a predetermined collision force value by a collision sensor.

Abstract: A vehicle occupant detection means and weight responsive classification system operable for controlling a resistance of a supplemental restraint device, such that in an accident, an occupant of the vehicle impacts the supplemental restraint device without injury. The supplemental restraint device comprises advanced restraint system for a vehicle in association with a weight-sensing unit mounted to one or more seats positioned between the seat mounting frame and the floor means of the vehicle for sensing the weight of a sitting occupant and for classifying the occupant accordingly, a computerized system is provided for calculating an operating weight value corresponding to classified weight value, and an airbag system is provided, comprising one or more airbags in association with a deployment unit configured to inflate the airbags with a deployment force and acceleration that is proportionate to the operating weight value when a collision force is sensed above a predetermined collision force value by a collision sensor.

Abstract: An advanced restraint system for a vehicle comprises a weight-sensing unit mounted to one or more seats positioned between the seat mounting frame and the floor means of the vehicle for sensing the weight of a sitting occupant and classifying the occupant accordingly, a computerized system for calculating an operating weight value corresponding to classified weight value, and an airbag system comprising one or more airbags and a deployment unit configured to inflate the airbags with a deployment force acceleration proportionate to the operating weight value when a sufficient collision force is sensed above a predetermined collision force value by a collision sensor.