Cooling jacket for electric machines
First Claim
1. A cooling jacket for cooling the stator of an electric machine, said jacket comprisinga jacket body having co-axial inner and outer surfaces, the inner surface defining a generally cylindric cavity for receiving said stator so that the stator is in heat transfer contact with said inner surface, axial flow passages in the body for the flow of coolant therethrough, each flow passage having a radial cross sectional shape defined entirely by three or more substantially linear sides.
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Accused Products
Abstract
A cooling jacket for cooling the stator of an electric machine. The jacket includes a cooling jacket body having a cylindric inner surface defining a cavity for receiving the stator of a motor, axial flow passages in the body for the flow of a coolant, and end caps connected to opposite ends of the body. Coolant flows through an inlet in one of the end caps and is directed through the flow passages along at least one serpentine path to an outlet. Each flow passage has a cross sectional shape defined entirely by three or more substantially linear sides.
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Citations
27 Claims
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1. A cooling jacket for cooling the stator of an electric machine, said jacket comprising
a jacket body having co-axial inner and outer surfaces, the inner surface defining a generally cylindric cavity for receiving said stator so that the stator is in heat transfer contact with said inner surface, axial flow passages in the body for the flow of coolant therethrough, each flow passage having a radial cross sectional shape defined entirely by three or more substantially linear sides.
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16. A cooling jacket for cooling the stator of an electric machine, said jacket comprising
a jacket body having co-axial inner and outer surfaces, the inner surface defining a generally cylindric cavity for receiving said stator so that the stator is in heat transfer contact with said inner surface, axial flow passages in the body for the flow of coolant therethrough, each flow passage having a radial cross sectional rectangular shape defined by four substantially linear sides joined at four corners, each corner having a small radius of curvature such that the perimeter of the flow passage is not reduced by more than 25% compared to the perimeter of the same flow passage having square corners, a first end cap connected to one end of the cooling jacket body and defining an annular conduit around the body in fluid communication with said flow passages, a second end cap connected to an opposite end of the cooling jacket body and defining an annular conduit around the body in fluid communication with said flow passages, an inlet on one of the end caps for flow of coolant into a respective conduit, an outlet on one of the end caps for flow of coolant out of a respective conduit, and barriers in the conduits for directing said coolant along a single serpentine path from the inlet through the flow passages to the outlet.
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23. A cooling jacket for cooling the stator of an electric machine, said jacket comprising
a jacket body having co-axial inner and outer surfaces, the inner surface defining a generally cylindric cavity for receiving said stator so that the stator is in heat transfer contact with said inner surface, axial flow passages in the body for the flow of coolant therethrough, a first end cap connected to one end of the cooling jacket body and defining an annular conduit around the body in fluid communication with said flow passages, a second end cap connected to an opposite end of the cooling jacket body and defining an annular conduit around the body in fluid communication with said flow passages, an inlet on one of the end caps for flow of coolant into a respective conduit, an outlet on one of the end caps for flow of coolant out of a respective conduit, barriers in the conduits for directing fluid along a path from the inlet through the flow passages to the outlet, said path comprising a plurality of parallel flow sections extending axially of the cooling jacket body between said conduits, each flow section of the path comprising a group of said flow passages and each section having an inlet end for entry of coolant into a respective group of flow passages and an outlet end for exit of coolant from the flow passages of said group, and ramps in said conduits extending across the inlet and outlet ends of said parallel flow sections for maintaining a substantially uniform static pressure in said conduits across the flow passages of each flow section.
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27. A cooling jacket for cooling the stator of an electric machine, said jacket comprising
a jacket body having co-axial inner and outer surfaces, the inner surface defining a generally cylindric cavity for receiving said stator so that the stator is in heat transfer contact with said inner surface, axial flow passages in the body for the flow of coolant therethrough, a first end cap connected to one end of the cooling jacket body and defining an annular conduit around the body in fluid communication with said flow passages, a second end cap connected to an opposite end of the cooling jacket body and defining an annular conduit around the body in fluid communication with said flow passages, an inlet on one of the end caps for flow of coolant into a respective conduit, an outlet on one of the end caps for flow of coolant out of a respective conduit, barriers in the conduits for directing all fluid entering the inlet to flow through the flow passages along only one serpentine path starting at the inlet and ending at the outlet and extending around substantially the entire circumference of the jacket body, said path comprising a plurality of parallel flow sections extending axially of the cooling jacket body between said conduits, each flow section of the path comprising a group of said flow passages and each section having an inlet end for entry of coolant into a respective group of flow passages and an outlet end for exit of coolant from the flow passages of said group.
Specification