This invention relates generally to pistons for internal combustion engines, and methods of manufacturing the pistons.
Aluminum pistons for internal combustion systems of automotive vehicles typically include a crown with a closed cooling gallery for retaining cooling fluid and reducing the temperature of the piston. The cooling gallery typically extends circumferentially between a center axis and a ring belt of the piston.
To reduce stress in aluminum pistons, the cooling gallery can be tilted 10 to 20 degrees. For example, as shown in
One aspect of the invention includes a piston designed to provide low stress and reduced mass and thus improved performance during operation in an internal combustion engine. The piston includes a body portion formed of an aluminum material and extending around a center axis. The body portion includes a crown containing a cooling gallery. The crown also presents a combustion surface and includes a ring belt with a plurality of ring grooves. The ring grooves include a top ring groove located closer to the combustion surface than the other ring grooves. The cooling gallery of the body portion includes an inner side wall and an outer side, the inner side wall is tilted away from the center axis of the body portion, and the outer side wall is tilted toward the center axis of the body portion. An insert is disposed in the top ring groove of the ring belt.
Another aspect of the invention provides a method of manufacturing a piston. The method includes providing a body portion formed of an aluminum material and extending around a center axis. The body portion includes a crown containing a cooling gallery, the crown presents a combustion surface, the crown includes a ring belt with a plurality of ring grooves, the ring grooves include a top ring groove located closer to the combustion surface than the other ring grooves, the cooling gallery of the body portion includes an inner side wall and an outer side, the inner side wall of the cooling gallery is tilted away from the center axis of the body portion, and the outer side wall of the cooling gallery is tilted toward the center axis of the body portion. The method further includes disposing an insert in the top ring groove of the ring belt.
These and other aspects, features and advantages of the invention will become more readily accompanying drawings, in which:
The invention provides an improved aluminum piston 10 for an internal combustion engine of an automotive vehicle. The piston 10 includes a tilted cooling gallery 12 for reducing stress, but has a reduced mass compared to other pistons 10 with tilted cooling galleries, such as the pistons of
The cooling gallery 12 of the piston 10 includes an inner side wall 24 and an outer side wall 26 connected by a top wall 28 and a bottom wall 30. The inner side wall 24 is located closer to the center axis A of the piston 10 than the outer side wall 26, and the outer side wall 26 is located closer to the ring belt 16 than the inner side wall 24. In the example embodiment of
To reduce mass of the piston 10, a portion of aluminum material adjacent the ring belt 16 is removed, such that the outer side wall 26 of the cooling gallery 12 is tilted in a direction toward the center axis of the piston 10 and the inside of the cooling gallery 12. In the example embodiment, the outer side wall 26 is tilted −5 to −45 degrees relative to the center axis of the body portion. In other words, the outer side wall 26 and the center axis of the body portion present an angle ranging from 5 to 45 degrees therebetween. Typically, the mass of the piston 10 is reduced by 5 to 8 g compared to the pistons of
Another aspect of the invention provides a method of manufacturing the piston 10 formed of aluminum material and including the tilted cooling gallery 12 with reduced mass. The method includes forming the crown 14 containing the cooling gallery 12 and the ring belt 16 containing the ring grooves. The crown 14 can be formed by casting, forging, and/or other methods. As discussed above, the cooling gallery 12 includes the inner side wall 24 and the outer side wall 26. The inner side wall 24 is located closer to the center axis of the piston 10, and the outer side wall 26 is located closer to the ring belt 16. The inner side wall 24 of the cooling gallery 12 is tilted away from the center axis of the piston 10 and toward the inner diameter of the cooling gallery 12.
To reduce mass of the piston 10, the method further includes removing a portion of aluminum material adjacent the ring belt 16, or providing a larger cooling gallery 12 relative to the comparative pistons with tilted cooling galleries, such that the outer side wall 26 of the cooling gallery 12 is tilted in a direction toward the center axis of the piston 10. The larger cooling gallery 12 can be provided during the step of forming the crown 14, such as during the casting or forging process. For example, the casting mold can be designed to provide the larger cooling gallery 12. Alternatively, the method can include removing a portion of the aluminum material along the ring belt 16, for example by machining, cutting, and/or another method. In the example embodiment, areas of the crown 14 below the ring insert 22 are hollowed out, while maintaining the outer side wall 26 tilted toward the inner diameter or inside of the cooling gallery 12.
The piston 10 and method provided by the present invention has numerous advantages. For example, the cooling gallery 12 of the aluminum piston 10 maintains a tilted inner diameter face or inner wall 24 to insure proper strength while removing non-structural mass below the iron groove insert 22. As discussed above, the inner diameter face or inner wall 24 of the cooling gallery 12 is tilted; the nonstructural area under the cooling gallery 12, under the iron insert 22, and behind the ring grooves is hollowed out for mass reduction; the outer diameter face or outer wall 26 of the cooling gallery 12 is tilted backward and can be concave to give clearance to the iron ring insert 22; and the bottom wall 30 of the cooling gallery 12 is significantly wider than the top wall 28. The cooling gallery 12 design removes significant mass from below the cooling gallery 12 and below iron ring insert 22, and from behind the ring grooves, while maintaining the structural inner diameter surface or inner side wall 24.
Many modifications and variations of the present invention are possible in light of the above teachings and may be practiced otherwise than as specifically described while within the scope of the claims. It is also contemplated that all features of all claims and of all embodiments can be combined with each other, so long as such combinations would not contradict one another.
This U.S. utility patent application claims priority to U.S. provisional patent application No. 62/549,055, filed Aug. 23, 2017, the entire disclosure of which is incorporated herein by reference.
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