Method of Estimating the Volumetric Carrying Capacity of a Truck Body
First Claim
1. A method for estimating the volumetric capacity of a truck body having a pair of side walls a front wall and a floor, comprising the steps of:
- (a) establishing an side-to-side profile of a generic load model by extending a load side line upward at a predetermined material angle of repose from the upper edge of each of the side walls of the truck body to a peak;
(b) replacing the peak of the generic load model side-to-side profile with an side-to-side load plateau profile line of a predetermined width while maintaining the load side lines at the predetermined material angle of repose;
(c) establishing a front-to-rear profile of a generic load model by extending a front load line upward from the upper edge of the front wall of the truck body at the predetermined material angle of repose and a rear load line upward from at or near a rear edge of the floor of the truck body to a peak;
(d) replacing the peak of the generic load model front-to-rear profile with a front-to-rear load plateau profile line of a predetermined length while maintaining the front and rear load lines at the predetermined material angle of repose;
(e) adjusting the final height of the load plateau profile line in the front-to-rear profile and side-to-side profile of the generic load to the lesser of the height of the load plateau profile line in the side-to-side profile as produced in step (b) and the height of the load plateau profile line in the front-to-rear profile as produced in step (d);
(f) creating a top profile of the generic load from the side-to-side and front-to-rear profiles of the generic load produced in step (e), the top profile of the generic load having a polygonal-shaped load plateau;
(g) adjusting the shape of the load plateau by defining a final outer boundary of the load plateau as a closed curve inscribed in the polygonal-shaped load plateau from step (f);
(h) contouring the side load lines produced in step (a) and the front and rear load lines produced in step (c) below the final outer boundary of the load plateau into a generally conically shaped surface in which the sides of the conical shaped surface are still inclined at the predetermined material angle of repose to form a final three-dimensional generic load model defined by the load plateau from step (g) and where the generally conical shaped surface intersects the side walls, front wall and floor of the truck body; and
(i) calculating the volume of the final three-dimensional generic load model.
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Abstract
A method for estimating the effective volumetric capacity of a truck body is provided. The method includes the step of establishing a side-to-side profile of a generic load model by extending load side lines upward at a predetermined material angle of repose from the upper edge of each of the side walls of the truck body. A front-to-rear profile of the generic load model is also established by extending a front load line upward from the upper edge of the front wall of the truck body at the predetermined material angle of repose and a rear load line upward from at or near a rear edge of the floor of the truck body at the predetermined material angle of repose. Load plateau lines having predetermined dimensions are established in the front-to-rear and side-to-side profiles and the height of the plateau lines are determined. A top profile of the generic load is then created from the side-to-side and front-to-rear profiles and the shape of the load plateau is adjusted into a closed curve shape. The front, rear and side load lines below the final outer boundary of the load plateau are then contoured into a generally conical shaped surface in which the sides of the surface are still inclined at the predetermined material angle of repose. The final three-dimensional generic load model is formed by where this generally conical shaped surface intersects the sides walls, front and floor of the truck body. The volume of the final three-dimensional generic load model can then be calculated.
22 Citations
7 Claims
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1. A method for estimating the volumetric capacity of a truck body having a pair of side walls a front wall and a floor, comprising the steps of:
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(a) establishing an side-to-side profile of a generic load model by extending a load side line upward at a predetermined material angle of repose from the upper edge of each of the side walls of the truck body to a peak;
(b) replacing the peak of the generic load model side-to-side profile with an side-to-side load plateau profile line of a predetermined width while maintaining the load side lines at the predetermined material angle of repose;
(c) establishing a front-to-rear profile of a generic load model by extending a front load line upward from the upper edge of the front wall of the truck body at the predetermined material angle of repose and a rear load line upward from at or near a rear edge of the floor of the truck body to a peak;
(d) replacing the peak of the generic load model front-to-rear profile with a front-to-rear load plateau profile line of a predetermined length while maintaining the front and rear load lines at the predetermined material angle of repose;
(e) adjusting the final height of the load plateau profile line in the front-to-rear profile and side-to-side profile of the generic load to the lesser of the height of the load plateau profile line in the side-to-side profile as produced in step (b) and the height of the load plateau profile line in the front-to-rear profile as produced in step (d);
(f) creating a top profile of the generic load from the side-to-side and front-to-rear profiles of the generic load produced in step (e), the top profile of the generic load having a polygonal-shaped load plateau;
(g) adjusting the shape of the load plateau by defining a final outer boundary of the load plateau as a closed curve inscribed in the polygonal-shaped load plateau from step (f);
(h) contouring the side load lines produced in step (a) and the front and rear load lines produced in step (c) below the final outer boundary of the load plateau into a generally conically shaped surface in which the sides of the conical shaped surface are still inclined at the predetermined material angle of repose to form a final three-dimensional generic load model defined by the load plateau from step (g) and where the generally conical shaped surface intersects the side walls, front wall and floor of the truck body; and
(i) calculating the volume of the final three-dimensional generic load model. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification