Metal working – Method of mechanical manufacture – Assembling or joining
Reexamination Certificate
2000-05-25
2001-05-22
Thomas, Alexander S. (Department: 1772)
Metal working
Method of mechanical manufacture
Assembling or joining
C029S463000, C428S130000
Reexamination Certificate
active
06233808
ABSTRACT:
FIELD OF THE INVENTION
The present invention pertains to thermal shields and, more particularly, to multi-layer thermal shields having a peripheral seal for limiting the ingress of fluids into the interior of the thermal shield.
BACKGROUND OF THE INVENTION
As the automotive industry has moved toward cleaner and more fuel-efficient products, engine compartments have become packed with engines that run hotter, with materials that absorb less heat (aluminum vs. steel), and with materials that deform or melt when exposed to excessive heat. In addition, other portions of automobiles include components that generate significant heat, e.g., catalytic heaters. To address this problem, simple metal stampings have been positioned between the heat source and the component to be protected. As more components are packed into less, space, heat generation has increased to the point (e.g., over 1300° F. at a catalytic converter) where more sophisticated thermal shields are required. Additionally, as automobile manufacturers continuously strive to reduce noise within the passenger compartment of automobiles they produce, simple stampings, with their tendency to vibrate, are inadequate for many applications.
To address these concerns, composite thermal shields are now in widespread use. These thermal shields function by reflecting, deflecting, dispersing and/or absorbing heat. Generally, these thermal shields include an insulating material, e.g., fiberglass, ceramic, aramid or air, that is typically encapsulated by upper and lower plates made from stainless steel, aluminum or other materials of varying grades and thicknesses. Such composite thermal shields are described, for example, in U.S. Pat. Nos. 2,576,698 and 5,398,407. Factors such as size and temperature of the heat source, air flow, ambient temperature and the required temperature on the cool side of the shield, are considered in designing composite thermal shields and typically necessitate an application-specific design.
Known composite thermal shields suffer from a number of problems. First, the seam at the periphery of the thermal shield used to secure together the upper and lower plates, which is generally formed by folding together peripheral portions of the plates, is typically not waterproof. As a result water can enter the interior of the thermal shield. The presence of water in the thermal shield reduces insulting properties, and can lead to corrosion, thereby reducing the durability of the the thermal shield. Furthermore, the peripheral seams of known thermal shields are often wrinkled and cracked which renders them less desirable to consumers and in extreme cases necessitates scrapping the part. In addition, such known peripheral seams are often sharp, causing safety issues in the workplace.
Another problem with known composite thermal shields is that they are relatively costly to manufacture. The seams of known thermal shields could be made waterproof by welding, through the use of adhesives or by other techniques. However, the additional manufacturing steps associated with these processes would add further to the cost of producing a thermal shield, which is already often higher than is desired.
SUMMARY OF THE INVENTION
One aspect of the present invention is a thermal shield comprising a first plate having a first peripheral edge, a second plate having a second peripheral edge and an interior chamber enclosed by the first plate and the second plate. The thermal shield also includes a seam made exclusively from the first peripheral edge and the second peripheral edge, wherein the seam seals the interior chamber such that fluids cannot travel between the interior chamber and the region surrounding the Thermal shield unless there is a pressure differential between the interior chamber and the region of at least 10 psi.
Another aspect of the present invention is a method of making a thermal shield comprising the steps of providing a first plate having a first peripheral region and a second plate having a second peripheral region. Next, the first plate is positioned relative to the second plate so that the first peripheral region is positioned adjacent the second peripheral region and so that first portions of the first and second peripheral regions extend in a first direction. Then, second portions of the first and second peripheral regions are folded so as to extend in a second direction which is substantially opposite the first direction, whereby a shoulder is formed between the first and second portions of the first peripheral region. As the next step, third portions of the first and second peripheral regions are folded so as to extend in the first direction. Finally, fourth portions of the first and second peripheral regions are folded so as to wrap at least partially around the shoulder.
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patent: 4392295 (1983-07-01), Sasai et al.
patent: 5398407 (1995-03-01), Stuer
patent: 5953808 (1999-09-01), Schenck, Jr. et al.
Downs Rachlin & Martin PLLC
Thermal Shield Solutions, LLC
Thomas Alexander S.
LandOfFree
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