Electric machine with fluid supply control system
First Claim
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1. An electric machine, comprising:
- a housing defining at least a portion of an internal fluid circuit;
a main rotor assembly rotationally mounted within the housing;
a main stator winding set mounted within the housing and at least partially surrounding at least a portion of the main rotor assembly;
a temperature sensor disposed within the stator winding set and configured to sense a parameter representative of an amount of power passing through the stator winding set and to supply a sensor signal representative thereof;
the temperature sensor positioned externally of the fluid circuit;
a fluid supply conduit coupled to the housing and including a fluid inlet and a fluid outlet, the fluid supply conduit fluid inlet coupled to receive a flow of fluid, the fluid supply conduit fluid outlet in fluid communication with the internal fluid circuit;
a fluid return conduit coupled to the housing and including a fluid inlet and a fluid outlet, the fluid return conduit fluid inlet in fluid communication with the internal fluid circuit;
a control unit coupled to receive the sensor signal and operable, in response thereto, to supply a fluid flow control signal based on the sensed parameter; and
a fluid flow regulator in fluid communication with the fluid supply conduit fluid inlet, the fluid flow regulator coupled to receive the fluid flow control signal and operable, in response thereto, to control the flow of fluid into the fluid supply conduit to a minimum fluid flow rate, a maximum fluid flow rate, or one of a plurality of fluid flow rates between the minimum and maximum fluid flow rates.
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Abstract
An electric machine includes a fluid control system that is configured to regulate the flow rate of fluid to the electric machine. The machine includes a sensor that senses a parameter representative of cooling required by the machine. The sensor supplies a sensor signal to a control unit, which in turn supplies a flow control signal to a flow regulator. The flow regulator, in response to the flow control signal, controls the flow rate of fluid to the machine to what is needed for effective cooling at current operating conditions. As a result, windage losses and pumping power requirements in the machine are reduced, and machine efficiency is increased.
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Citations
19 Claims
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1. An electric machine, comprising:
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a housing defining at least a portion of an internal fluid circuit; a main rotor assembly rotationally mounted within the housing; a main stator winding set mounted within the housing and at least partially surrounding at least a portion of the main rotor assembly; a temperature sensor disposed within the stator winding set and configured to sense a parameter representative of an amount of power passing through the stator winding set and to supply a sensor signal representative thereof; the temperature sensor positioned externally of the fluid circuit; a fluid supply conduit coupled to the housing and including a fluid inlet and a fluid outlet, the fluid supply conduit fluid inlet coupled to receive a flow of fluid, the fluid supply conduit fluid outlet in fluid communication with the internal fluid circuit; a fluid return conduit coupled to the housing and including a fluid inlet and a fluid outlet, the fluid return conduit fluid inlet in fluid communication with the internal fluid circuit; a control unit coupled to receive the sensor signal and operable, in response thereto, to supply a fluid flow control signal based on the sensed parameter; and a fluid flow regulator in fluid communication with the fluid supply conduit fluid inlet, the fluid flow regulator coupled to receive the fluid flow control signal and operable, in response thereto, to control the flow of fluid into the fluid supply conduit to a minimum fluid flow rate, a maximum fluid flow rate, or one of a plurality of fluid flow rates between the minimum and maximum fluid flow rates. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. An electric machine, comprising:
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a housing defining at least a portion of an internal fluid circuit; a main rotor assembly rotationally mounted within the housing; a main stator assembly mounted within the housing and at least partially surrounding at least a portion of the main rotor assembly; a first sensor disposed within the stator assembly and configured to sense a parameter representative of an amount of power passing through the stator assembly and to supply a first sensor signal representative thereof; a fluid supply conduit coupled to the housing and including a fluid inlet and a fluid outlet, the fluid supply conduit fluid inlet coupled to receive a flow of fluid, the fluid supply conduit fluid outlet in fluid communication with the internal fluid circuit; a second sensor disposed within the fluid supply conduit to sense temperature of fluid in the fluid supply conduit and to supply a second sensor signal representative thereof; a fluid return conduit coupled to the housing and including a fluid inlet and a fluid outlet, the fluid return conduit fluid inlet in fluid communication with the internal fluid circuit; a control unit coupled to receive the first and the second sensor signals and operable, in response thereto, to supply the fluid flow control signal based on the sensed parameter; and a pump in fluid communication with the fluid supply conduit fluid inlet, the variable speed pump coupled to receive the fluid flow control signal and operable, in response thereto, to control the flow of fluid into the fluid supply conduit to a minimum fluid flow rate, a maximum fluid flow rate, or one of a plurality of fluid flow rates between the minimum and maximum fluid flow rates. - View Dependent Claims (14, 15, 16)
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17. An electric machine, comprising:
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a housing defining at least a portion of an internal fluid circuit; a main rotor assembly rotationally mounted within the housing; a main stator assembly mounted within the housing and at least partially surrounding at least a portion of the main rotor assembly; a first sensor disposed within the housing and configured to sense a parameter representative of a cooling requirement of the machine and supply a first sensor signal representative thereof; a fluid supply conduit coupled to the housing and including a fluid inlet and a fluid outlet, the fluid supply conduit fluid inlet coupled to receive a flow of fluid, the fluid supply conduit fluid outlet in fluid communication with the internal fluid circuit; a second sensor for sensing temperature of fluid passing through the internal fluid circuit and for supplying a second sensor signal; a fluid return conduit coupled to the housing and including a fluid inlet and a fluid outlet, the fluid return conduit fluid inlet in fluid communication with the internal fluid circuit; a control unit coupled to receive the first and the second sensor signals and operable, in response thereto, to supply a fluid flow control signal based on the sensed parameter; and a fluid flow regulator valve in fluid communication with the fluid supply conduit fluid inlet, the fluid flow regulator valve coupled to receive the fluid flow control signal and operable, in response thereto, to control the flow of fluid into the fluid supply conduit to a minimum fluid flow rate, a maximum fluid flow rate, or one of a plurality of fluid flow rates between the minimum and maximum fluid flow rates. - View Dependent Claims (18, 19)
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Specification