초록 ▼

A thermal control device for controlling the temperature of a craft/spacecraft is an electrostatic switch causing a large change in apparent emissivity. A flexible covering has a high emissivity and makes close contact with the surface of the spacecraft when electrostatically attracted thereto, when

A thermal control device for controlling the temperature of a craft/spacecraft is an electrostatic switch causing a large change in apparent emissivity. A flexible covering has a high emissivity and makes close contact with the surface of the spacecraft when electrostatically attracted thereto, when the covering is out of contact, the spacecraft surface emissivity controls radiation. The device can operate with moderate levels of DC voltages. Application of voltage results in high emissivity while removal of voltage allows a separator to move the covering out of contact and thus results in low emissivity.

대표청구항 ▼

1. A radiator comprising:a space craft having an inside, and having a low emissivity layer, outer in reference to the inside of the space craft; a substantially flat, planar movable covering disposed substantially parallel to said outer layer and having a contact mode and a non-contact mode with the

1. A radiator comprising:a space craft having an inside, and having a low emissivity layer, outer in reference to the inside of the space craft; a substantially flat, planar movable covering disposed substantially parallel to said outer layer and having a contact mode and a non-contact mode with the low emissivity outer layer; said movable covering further comprising a composite film with dielectric base layer, inner in reference to the inside of the space craft, and an outer high emissivity metallic coating on the outer side of the inner dielectric base; a switched power source having a first pole connected to the low emissivity outer layer and a second pole connected to the high emissivity metallic coating; and wherein a non-powered state of the outer high emissivity metallic coating causes the non-contact mode and a low heat transfer rate away from the space craft, and a powered state of the outer high emissivity metallic coating causes the contact mode and a high heat transfer rate away from the space craft. 2. The radiator of claim 1, wherein the movable covering is flexible.3. The radiator of claim 2, wherein the space craft is located in space.4. The radiator of claim 1, wherein the switched power source is DC.5. A variable heat transfer surface, said surface comprising:a low emissivity layer covering at least a portion of a space craft having a heat-emitting inside, the layer outer in reference to the inside of the space craft; a substantially flat, planar movable covering disposed substantially parallel to said outer layer and having a contact mode and a non-contact mode with the low emissivity outer layer; said movable covering further comprising a composite film with dielectric base, inner in reference to the inside of the space craft and high emissivity metallic coating on the outer side of the inner dielectric base; a power source connected across the low emissivity outer layer and the high emissivity metallic coating; a switch to supply power “ON” and “OFF” across the low emissivity outer layer and the high emissivity metallic coating; and wherein the switch in the “OFF” position causes the non-contact mode and a resulting low heat transfer rate away from the surface, and the switch in the “ON” position causes the contact mode and a resulting high heat transfer rate away from the surface. 6. The variable heat transfer surface of claim 5, wherein the low emissivity outer layer further comprises at least a portion of a space craft, said space craft being usable in space.7. The variable heat transfer surface of claim 6, wherein the movable covering is flexible.8. The variable heat transfer surface of claim 5, wherein the movable covering is flexible.9. The variable heat transfer surface of claim 5, wherein the power source is DC.10. A radiator comprising:a low emissivity layer covering at least a portion of a space craft, the layer outer in reference to the inside of the space craft; a temperature control comprising a substantially flat, planar movable covering disposed substantially parallel to said outer layer and having a contact mode and a non-contact mode with the low emissivity outer layer, thereby enabling a higher amount of heat to radiate from the space craft in the contact mode relative to the non-contact mode. 11. The radiator of claim 10, wherein the movable covering further comprises a flexible composite film further comprising dielectric base, the base inner in reference to the inside of the space craft and high emissivity metallic coating covering a low emissivity layer, the coating outer in reference to the inside of the space craft.12. The radiator of claim 11, wherein the movable covering further comprises a switched power source having a first pole connected to the low emissivity outer layer and a second pole connected to the high emissivity metallic coating of the temperature control.13. The radiator of claim 12 further comprising a DC power source to drawing together the low emissivity outer layer and the temperature control via an electrostatic force.14. A radiator comprising:a low emissivity outer layer covering at least a portion of a space craft having a heat-emitting inside, the layer outer in reference to the inside of the space craft; a temperature control further comprising a substantially flat, planar movable covering disposed substantially parallel to said outer layer and having a contact mode and a non-contact mode with the low emissivity outer layer, thereby enabling a higher amount of heat to radiate from the space craft in the contact mode relative to the non-contact mode; wherein the movable covering further comprises a flexible composite film further comprising a dielectric base, the base inner in reference to the inside of the space craft and high emissivity metallic coating, the coating outer in reference to the inside of the space craft covering the low emissivity outer layer; wherein the movable covering further comprises a switched power source having a first pole connected to the low emissivity outer layer and a second pole connected to the high emissivity metallic coating of the temperature control; wherein the movable covering further comprises a switched power source having a first pole connected to the low emissivity outer layer and a second pole connected to the high emissivity metallic coating of the temperature control; and a DC power source functioning to draw together the low emissivity outer layer and the temperature control via an electrostatic force.