Engine with combustion wall temperature control means
First Claim
1. A component of an internal combustion engine having a combustion chamber, said component including a portion having first and second heat conducting walls, said first wall bordering a portion of said engine combustion chamber and said second wall bordering a fluid chamber containing in operation a fluid capable of carrying away heat, said component portion defining a sealed cavity between said first and second walls, a third wall dividing said cavity into vaporizing and condensing sections adjacent said first and second walls respectively, said third wall having separate vapor and condensate flow openings therethrough connecting said sections, a charge of vaporizable fluid coolant in said sealed cavity having a volume in the liquid state not greater than the volume of said vaporizing section, and means comprising a predetermined charge of inert gas pressurizing said cavity to establish the vaporizing temperature of said fluid coolant under operating conditions in a predetermined range such that said first wall will reach a temperature high enough to encourage combustion of air-fuel mixtures adjacent thereto in such combustion chamber before substantial vaporization cooling of said first wall begins and such cooling will reach its maximum before said first wall temperature becomes excessively high.
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Accused Products
Abstract
An internal combustion engine is provide with heat pipe capsules integrated into portions of the combustion chamber wall-forming components of the engine such as the pistons and cylinder head and arranged to transmit heat from the portions of the combustion chamber walls formed by the capsules to adjacent cooling fluid systems at rates controlled by the heat pipe capsules to maintain a predetermined wall temperature range adequate to promote combustion while avoiding detonation or coking of fuel on the wall surfaces.
33 Citations
8 Claims
- 1. A component of an internal combustion engine having a combustion chamber, said component including a portion having first and second heat conducting walls, said first wall bordering a portion of said engine combustion chamber and said second wall bordering a fluid chamber containing in operation a fluid capable of carrying away heat, said component portion defining a sealed cavity between said first and second walls, a third wall dividing said cavity into vaporizing and condensing sections adjacent said first and second walls respectively, said third wall having separate vapor and condensate flow openings therethrough connecting said sections, a charge of vaporizable fluid coolant in said sealed cavity having a volume in the liquid state not greater than the volume of said vaporizing section, and means comprising a predetermined charge of inert gas pressurizing said cavity to establish the vaporizing temperature of said fluid coolant under operating conditions in a predetermined range such that said first wall will reach a temperature high enough to encourage combustion of air-fuel mixtures adjacent thereto in such combustion chamber before substantial vaporization cooling of said first wall begins and such cooling will reach its maximum before said first wall temperature becomes excessively high.
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6. A cylinder head for an internal combustion engine, said cylinder head having a first wall adapted to define a portion of an engine combustion chamber, means defining a coolant jacket in said head and adapted to contain a cooling liquid for carrying excess heat away from said first wall, and the improvement comprising
a heat transfer control capsule mounted in said first wall, and having walls defining a sealed cavity including adjacent evaporator and condenser chambers separated by a baffle wall, one of said capsule walls comprising an evaporator wall bordering said evaporator chamber and forming a portion of said first cylinder head wall exposed to such combustion chamber to receive heat therefrom, another of said capsule walls comprising a condenser wall bordering on said condenser chamber and forming a portion of said coolant jacket to dissipate heat thereto, said baffle wall having separate vapor and condensate flow openings therethrough connecting said evaporator and condenser chambers and means comprising a charge of vaporizable fluid coolant in said sealed cavity having a predetermined volume in the liquid state less than the volume of said evaporator chamber and a predetermined amount of inert gas pressurizing said cavity to establish a predetermined range of vaporizing temperatures for said vaporizable coolant such that said evaporator wall will reach a predetermined temperature high enough to encourage combustion of air-fuel mixtures adjacent thereto in such combustion chamber before substantial vaporization cooling of said evaporator wall begins and such cooling will reach its maximum before said evaporator wall temperature becomes excessively high.
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8. A piston for an internal combustion engine, said piston having a top wall adapted to define a portion of an engine combustion chamber, said top wall being formed, at least in part, by a heat transfer control capsule incorporated in said piston and having walls defining a sealed cavity including adjacent evaporator and condenser chambers separated by a baffle wall, one of said capsule walls comprising an evaporator wall bordering said evaporator chamber and forming a portion of said piston top wall exposed to such combustion chamber to receive heat therefrom, another of said capsule walls comprising a condenser wall bordering on said condenser chamber and exposed to the interior of said piston in position for impingement thereon of a cooling fluid to dissipate heat therefrom, said baffle wall having separate vapor and condensate flow openings therethrough connecting said evaporator and condenser chambers, wick means extending through said condensate flow openings for transferring condensate from said condenser chamber to said evaporator chamber, means comprising a charge of vaporizable fluid coolant in said sealed cavity and having a predetermined volume in the liquid state that is less than the volume of said evaporator chamber, and a predetermined amount of inert gas pressurizing said cavity to establish a predetermined range of vaporizing temperatures for said vaporizable coolant such that said evaporator wall will reach a predetermined temperature high enough to encourage combustion of air-fuel mixtures adjacent thereto in such combustion chamber before substantial vaporization cooling of said evaporator wall begins and such cooling will reach its maximum before said evaporator wall temperatures become excessively high.
Specification