COOLING DEVICE FOR REGULATING THE TEMPERATURE OF A HEAT SOURCE OF A SATELLITE, AND METHOD FOR PRODUCING THE ASSOCIATED COOLING DEVICE AND SATELLITE
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Accused Products
Abstract
A cooling device for regulating the temperature of a heat source of a satellite. The cooling device comprises at least one fluid loop is formed by an evaporator comprising a tank, at least one condenser, two conduits connecting the evaporator to the condenser, a heat transfer fluid flowing inside the fluid loop. The cooling device further comprises a device for pressurizing the fluid loop or a thermal damper. The thermal damper comprises a variable volume leak-tight chamber having a volume which varies on the basis of the operating temperature of the fluid loop so as to provide a substantially constant temperature inside the fluid loop.
14 Citations
40 Claims
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1-20. -20. (canceled)
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21. A cooling device for regulating a temperature of a heat source comprising:
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at least one capillary loop heat pipe formed by; a capillary evaporator linked to at least one tank of fluid; at least one condenser; a heat-transfer fluid circulating in the capillary loop heat pipe; a first duct in which the heat-transfer fluid circulates in the mostly liquid state; a second duct in which the heat-transfer fluid circulates in the mostly gaseous state; the second duct linking the evaporator to the condenser and the first duct linking the condenser to the evaporator to form a closed fluid circulation circuit; and a thermal damper comprising a variable volume leak-tight chamber comprising a volume stiffness configured for the variable volume leak-tight chamber to be deformed passively within a given operating range of the capillary loop heat pipe as a function of a variation of volume and of distribution of the fluid in the capillary loop heat pipe. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 40)
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37. A method for producing a cooling device for regulating the temperature of a heat source, wherein the cooling device comprises:
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at least one capillary loop heat pipe formed by;
a capillary evaporator linked to at least one tank of fluid;
at least one condenser;
a heat-transfer fluid circulating in the capillary loop heat pipe;
a first duct in which the heat-transfer fluid circulates in the mostly liquid state;
a second duct in which the heat-transfer fluid circulates in the mostly gaseous state;
the second duct linking the evaporator to the condenser and the first duct linking the condenser to the evaporator to form a closed fluid circulation circuit; anda thermal damper comprising a variable volume leak-tight chamber comprising a volume stiffness configured for the variable volume leak-tight chamber to be deformed passively within a given operating range of the capillary loop heat pipe as a function of a variation of volume and of distribution of the fluid in the capillary loop heat pipe; the method comprising the steps of; selecting a set pressure corresponding to an operating point defining a saturation temperature (Tmax) and a saturation pressure (Pmax); selecting a minimum saturation temperature (Tsat) less than the saturation temperature (Tmax) of the operating point, the minimum saturation temperature (Tsat) corresponding to a minimum saturation pressure (Psat); selecting a minimum temperature (Tmin) that is less than the minimum saturation temperature (Tsat); calculating a variation of volume and of distribution of the fluid in the capillary loop heat pipe between the operating point at which fluid is at the saturation temperature (Tmax) and at the saturation pressure (Pmax), and another operating point at which the liquid is at the minimum temperature (Tmin) and a vapor is at the minimum saturation temperature (Tsat); calculating a volume variation (DV) of the fluid between the two operating points at a position where the thermal damper is situated; producing a variable volume leak-tight chamber whose set pressure is equal to the minimum saturation pressure (Psat), a maximum volume variation is greater than or equal to the volume variation (DV) and for which the volume stiffness is substantially equal to a ratio between a difference between the saturation pressure (Pmax) and the minimum saturation pressure (Psat) and the volume variation ((Pmax−
Psat)/DV), the volume stiffness being configured for the variable volume leak-tight chamber to be deformed passively within the given operating range of the capillary loop heat pipe as a function of the variation of volume and of distribution of the fluid in the capillary loop heat pipe.- View Dependent Claims (38, 39)
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Specification