초록 ▼

An embodiment of the invention is directed to coolant flow control apparatus, in association with a liquid flow through heat exchanger situated to cool one or more electronic or other device. The apparatus comprises a first input channel for carrying liquid coolant to a first input of the heat excha

An embodiment of the invention is directed to coolant flow control apparatus, in association with a liquid flow through heat exchanger situated to cool one or more electronic or other device. The apparatus comprises a first input channel for carrying liquid coolant to a first input of the heat exchanger, and further comprises a flow control device positioned along a flow path that includes the first input channel. The flow control device is provided with a gating element supported for selected movement across the flow path, in order to selectively vary the amount of coolant moving through the flow path. The apparatus further include an actuator located in the flow control device that comprises a metal component which is directly tied to the gating element, wherein the metal component changes its shape in response to specified changes in coolant temperature, and a given change in the shape of the metal component acts to selectively move the gating element with respect to the flow path.

대표청구항 ▼

1. In association with a liquid flow through a heat exchanger situated to remove heat from one or more devices, a coolant flow control apparatus comprising: a first input channel for carrying liquid coolant to a first input of the heat exchanger;a flow control device positioned along a flow path tha

1. In association with a liquid flow through a heat exchanger situated to remove heat from one or more devices, a coolant flow control apparatus comprising: a first input channel for carrying liquid coolant to a first input of the heat exchanger;a flow control device positioned along a flow path that includes the first input channel, wherein the flow control device is provided with a gating element supported for selected movements across the flow path, in order to selectively vary an amount of coolant moving through the flow path;an actuator located in the flow control device that comprises a metal component which is directly tied to the gating element, wherein the metal component changes its shape in response to specified changes in coolant temperature, and a given change in the shape of the metal component acts to selectively displace the gating element with respect to the flow path, and wherein the metal component, in response to a temperature of coolant proximate to the flow control device, is operable to move the gating element to enable or prevent, selectively, coolant flow along the first input channel into the heat exchanger;a second input channel is provided for carrying liquid coolant to a second input of the heat exchanger, during times when the gating element of the flow control device is both enabling and preventing said coolant flow along the first input channel into the heat exchanger; andat least one output channel is provided for carrying coolant away from the heat exchanger. 2. The coolant flow control apparatus of claim 1, wherein: said flow path includes a chamber within the heat exchanger that contains coolant, and wherein the metal component is located in the chamber, and selectively changes its shape in response to temperature changes of the coolant in the chamber. 3. The coolant flow control apparatus of claim 2, wherein: the gating element of the flow control device is positioned to selectively vary the amount of coolant flowing into the first input of the heat exchanger from the first input channel. 4. The coolant flow control apparatus of claim 3, wherein: the gating element is provided with a layer of insulating material, to provide a thermal barrier between coolant in the chamber of the heat exchanger, and coolant in the first input channel. 5. The coolant flow control apparatus of claim 1, wherein: the metal component comprises a bimetallic strip formed of selected metals. 6. The coolant flow control apparatus of claim 1, wherein: the metal component comprises a shape memory alloy formed of selected metals. 7. The coolant flow control apparatus of claim 1, wherein: the at least one output channel is provided for carrying coolant away from a given output of the heat exchanger, and wherein the gating element of the flow control device is positioned to selectively vary the amount of coolant flowing from the given output of the heat exchanger into the at least one output channel. 8. In association with a liquid flow through a heat exchanger situated to remove heat from one or more electronic devices, a method for coolant flow control comprising: providing a first input channel for carrying liquid coolant to a first input of the heat exchanger;positioning a flow control device along a flow path that includes the first input channel, wherein the flow control device is provided with a gating element supported for selected movement across the flow path, in order to selectively vary an amount of coolant moving through the flow path;locating an actuator in the flow control device that comprises a metal component which is directly tied to the gating component, wherein the metal component changes its shape in response to specified changes in coolant temperature, and a given change in the shape of the metal component acts to selectively displace the gating element with respect to the flow path, and wherein the metal component, in response to a temperature of coolant proximate to the flow control device, is operable to move the gating element to enable or prevent, selectively, coolant flow along the first input channel into the heat exchanger;providing a second input channel for carrying liquid coolant to a second input of the heat exchanger, during times when the gating element of the flow control device is both enabling and preventing said coolant flow along the first input channel into the heat exchanger; andproviding at least one output channel for carrying coolant away from the heat exchanger. 9. The method of claim 8, wherein: said flow path includes a chamber within the heat exchanger that contains coolant, and wherein the metal component is located in the chamber, and selectively changes its shape in response to temperature changes of the coolant in the chamber.