The present invention relates generally to devices for improving vehicle aerodynamics, and more specifically to air dams for motor vehicles.
Many conventional motor vehicles, such as the modern-day automobile, include an air dam that is engineered to improve the aerodynamic characteristics of the vehicle body. A traditional air dam, which is sometimes referred to as an “air deflector,” is mounted on the underside of the front-end structure of the vehicle body, extending downward into proximity with the roadway. Current air dam design is such that the air dam is positioned approximately 15 degrees from the ground wherein the contact point between the front tire and the ground is the vertex. Air dams improve the handling and control of the motor vehicle, increase fuel economy, and also improve the routing of air flow for cooling/heat exchange in the vehicle powertrain and air conditioning systems by managing the flow of turbulent air under and around the vehicle chassis and affecting internal airflows.
As a vehicle moves forward at higher speeds, air flow underneath the vehicle is more likely to increase where a vehicle does not have an air dam. Air flow underneath a vehicle is not desirable because a vehicle may experience lift as well as air turbulence under the vehicle thereby reducing fuel efficiency and increasing aerodynamic drag.
Traditional air dams are generally fixedly suspended from underneath the front-end structure of the vehicle. Air dams therefore redirect the air flow to the sides of the vehicle so as to minimize turbulence caused by ierregular under carriage surfaces. Such traditional air dams may be damaged upon sporadic unintended impact with a curb, driveway incline, or other roadway obstruction. The damage to the air dam reduces the effectiveness of the air dam and further increases the associated repairs and/or replacement costs.
An air dam is provided which includes an upper portion, an intermediate portion and a flexible lower portion. The upper portion is affixed to the underside of a vehicle. The intermediate portion is integral to the upper portion. The flexible lower portion is affixed to the upper portion. The intermediate portion of the air dam is operatively configured to structurally support the flexible intermediate portion.
The present invention will now be described by way of example, with reference to the accompanying drawings:
The present disclosure provides an air dam which reduces air drag under a moving vehicle while maintain damageability performance. The air dam of the present disclosure serves to reduce lift, increase front end stability, and allows for smoother underbody air flow.
Referring now to the drawings,
The upper portion of the air dam includes a substantially horizontal section which lies below the bumper and may optionally further a section which integrally curves to a vertical wall. The lower portion may be attached along to the lowest edge of the upper portion. The lower portion may be attached to the upper portion via a dual shot mold. The upper portion may be formed from a rigid material such as, but not limited to a thermoplastic olefin material having a durometer value in the range of 90-120. The lower portion may be formed from a flexible material having a durometer value in the range of 40-80.
As shown in
Accordingly, the intermediate portion may be formed from the same material as the upper portion, such as but not limited to a thermoplastic olefin. Accordingly, the upper portion, intermediate portion and the middle portion may be manufactured using a dual shot mold wherein the upper portion and the intermediate portion are integral to one another and are injected molded using the same material. The lower portion may also be formed using a dual shot injection molding process wherein the lower portion is made from a softer more flexible/resilient material.
As indicated, the molded-in spine of the intermediate portion is integral to the upper portion via at least one flexible vertical section. As shown in
The flexible vertical sections are integrally formed at the bottom edge of the upper portion. The flexible vertical sections and molded-in spine of the intermediate portion provide some structure support for the lower portion which is formed from a softer more flexible material. The lower portion, in conjunction with the intermediate portion, is therefore sufficiently rigid to deflect air to the lateral sides of the vehicle at high speeds, yet flexible enough to reduce damage when the air dam of the present disclosure is sporadically impacted by rough terrain.
Referring now to
It will be appreciated by those skilled in the art that, although the invention has been described with reference to one or more preferred embodiments, the invention is not limited to these disclosed embodiments and that various alternative embodiments or modifications to the disclosed embodiments could be made without departing from the scope of the invention.
This patent application claims priority to U.S. Provisional Patent Application bearing the Ser. No. 61/99255 filed on Jun. 21, 2011. The contents of which are hereby incorporated by reference.