초록 ▼

An ice protection system for a structure having at least one surface to be protected from a range of icing conditions. The ice protection system includes at least one heater device, arranged in thermal contact with at least one surface to be protected; at least one temperature sensor for outputting

An ice protection system for a structure having at least one surface to be protected from a range of icing conditions. The ice protection system includes at least one heater device, arranged in thermal contact with at least one surface to be protected; at least one temperature sensor for outputting at least one temperature signal, the sensor being in thermal contact with the heater device; and a control system for controlling the heat output of the heater device using the temperature signal. The control system is operable to control the heat output of the heater device in order to maintain the temperature of the heater device at a substantially constant temperature.

대표청구항 ▼

1. An ice protection system for a structure having at least one surface to be protected from a range of icing conditions, the ice protection system comprising: at least one heater device, arranged in thermal contact with said at least one surface;at least one temperature sensor for outputting at lea

1. An ice protection system for a structure having at least one surface to be protected from a range of icing conditions, the ice protection system comprising: at least one heater device, arranged in thermal contact with said at least one surface;at least one temperature sensor for outputting at least one temperature signal, said at least one sensor being in thermal contact with at least one said heater device and said temperature signal being indicative of a temperature of one or more heater devices; anda control system for controlling the heat output of said at least one heater device, wherein said at least one heater device is arranged between said at least one temperature sensor and said at least one surface to be protected, said at least one heater device being arranged to dissipate heat in one direction through said at least one surface and being arranged to dissipate heat through the structure in a direction away from the at least one surface, said at least one temperature sensor being arranged between said at least one heater device and said structure, and the ice protection system being arranged such that a first thermal resistance between said at least one heater device and said structure is smaller than a second thermal resistance between said at least one heater device and said at least one surface,wherein the control system comprises a processing unit configured to output at least one estimate of the temperature at said at least one surface, the processing unit calculating said at least one estimate of the temperature using at least one estimate of the heat output by said at least one heater device, said at least one temperature signal, and at least one estimate of the thermal resistance between said at least one heater device and said at least one surface,wherein the control system is operable to control the heat output of said at least one heater device using at least one of said at least one temperature signal and/or said at least one estimate of the temperature at said at least one surface, andwherein the control system is operable to control the heat output of said at least one heater device to maintain the temperature of the, or each, heater device at a substantially constant temperature. 2. An ice protection system according to claim 1 for use with an aircraft, wherein said at least one substantially constant temperature is sufficient to prevent ice accumulation on said at least one surface during icing conditions to which the aircraft is expected to be subjected. 3. An ice protection system according to claim 1, wherein the control system is operable to maintain the temperature of each of said at least one heater device at a respective substantially constant temperature in order to enable different heater devices to operate at different temperatures. 4. An ice protection system according to claim 1, wherein the control system is operable to control the heat output of said at least one heater device to maintain a temperature at said at least one surface at or above a minimum temperature. 5. An ice protection system according to claim 1, having a first thermal resistance between said at least one temperature sensor and said at least one heater device and a second thermal resistance between said at least one temperature sensor and said at least one surface to be protected, and wherein the first thermal resistance is smaller than the second thermal resistance. 6. An ice protection system according to claim 1, having a first thermal capacity between said at least one temperature sensor and said at least one heater device and a second thermal capacity between said at least one surface and said at least one heater device to be protected, and wherein the first thermal capacity is smaller than the second thermal capacity. 7. An ice protection system according to claim 1, wherein said at least one temperature sensor is separated from said at least one heater device by a layer of thermal insulation. 8. An ice protection system according to claim 1, wherein said at least one temperature sensor is operable to provide an averaged temperature reading. 9. An ice protection system according to claim 8, wherein said at least one temperature sensor comprises at least one point temperature sensor and at least one high thermal conductivity strip to which said at least one point temperature sensor is attached. 10. An ice protection system according to claim 8, wherein said at least one temperature sensor comprises at least one distributed or long resistive temperature sensor. 11. An ice protection system according to claim 1, wherein said at least one heater device includes at least one anti-icing strip. 12. An ice protection system according to claim 1, wherein said at least one heater device includes at least one ice breaker strip. 13. An ice protection system according to claim 12, wherein the control system is operable to switch said at least one ice breaker strip on and off in accordance with a de-icing schedule. 14. An ice protection system according to claim 1, wherein the control system comprises at least one power controller operable to supply variable amounts of power to said at least one heater device in dependence on control signals received from the control system. 15. An ice protection system according to claim 1, wherein the control system is operable to receive a signal indicative of a demand heater device temperature, and to maintain the temperature of said at least one heater device in dependence on the demand heater device temperature. 16. An ice protection system according to claim 1, wherein the control system is operable to determine a target heat output for each of said at least one heater device, and to control said at least one heater device using the target heat output. 17. An ice protection system according to claim 16, wherein: said at least one heater device includes at least one heater device having an associated temperature sensor and at least one heater device not having an associated temperature sensor; andthe control system is operable to determine the target heat output for said at least one heater device not having an associated temperature sensor as a function of the target heat output of a heater device having an associated temperature sensor. 18. An ice protection system according to claim 1, wherein the control system includes at least one feedback controller for controlling the heat output of each heater device using said at least one temperature signal. 19. An ice protection system according to claim 1, wherein the control system includes at least one feedforward controller for controlling the heat output of each heater device using at least one signal indicative of the icing conditions. 20. A structure exposable to icing conditions, comprising: at least one member having at least one surface to be protected from a range of icing conditions; andan ice protection system according to claim 1. 21. A structure according to claim 20, wherein the structure includes laminate material. 22. A method of installing an ice protection system for a structure having at least one surface to be protected from a range of icing conditions, the method comprising: arranging at least one heater device in thermal contact with said at least one surface;arranging at least one temperature sensor in thermal contact with at least one said heater device, said at least one temperature sensor being operable to output at least one temperature signal, said temperature signal being indicative of a temperature of one or more heater devices; andinstalling a control system for controlling the heat output of said at least one heater device,wherein said at least one heater device is arranged between said at least one temperature sensor and said at least one surface to be protected, said at least one heater device being arranged to dissipate heat in one direction through said at least one surface and being arranged to dissipate heat through the structure in a direction away from the at least one surface, said at least one temperature sensor being arranged between said at least one heater device and said structure, and the ice protection system being arranged such that a first thermal resistance between said at least one heater device and said structure is smaller than a second thermal resistance between said at least one heater device and said at least one surface,wherein the control system comprises a processing unit configured to output at least one estimate of the temperature at said at least one surface, the processing unit calculating said at least one estimate of the temperature using at least one estimate of the heat output by said at least one heater device, said at least one temperature signal, and at least one estimate of the thermal resistance between said at least one heater device and said at least one surface,wherein the control system is operable to control the heat output of said at least one heater device using at least one of said at least one temperature signal and said at least one estimate of the temperature at said at least one surface, andwherein the control system is operable to control the heat output of said at least one heater device to maintain the temperature of said at least one heater device at a substantially constant temperature. 23. An ice protection system for a structure having at least one surface to be protected from a range of icing conditions, the ice protection system comprising: at least one heater device, arranged in thermal contact with said at least one surface;at least one temperature sensor for outputting at least one temperature signal, said at least one sensor being in thermal contact with at least one said heater device and said temperature signal being indicative of a temperature of one or more heater devices; anda control system for controlling the heat output of said at least one heater device,wherein said at least one heater device is arranged between said at least one temperature sensor and said at least one surface to be protected, said at least one heater device being arranged to dissipate heat in one direction through said at least one surface and being arranged to dissipate heat through the structure in a direction away from the at least one surface, said at least one temperature sensor being arranged between said at least one heater device and said structure, and the ice protection system being arranged such that a first thermal resistance between said at least one heater device and said structure is smaller than a second thermal resistance between said at least one heater device and said at least one surface, andwherein the control system is operable to control the heat output of said at least one heater device to maintain the temperature of the or each heater device at a substantially constant temperature using said at least one temperature signal. 24. An ice protection system according to claim 23, having a first thermal resistance between said at least one temperature sensor and said at least one heater device, and a second thermal resistance between said at least one temperature sensor and said at least one surface to be protected, and wherein the first thermal resistance is smaller than the second thermal resistance. 25. An ice protection system according to claim 23, having a first thermal capacity between said at least one temperature sensor and said at least one heater device, and a second thermal capacity between said at least one surface and said at least one heater device to be protected, and wherein the first thermal capacity is smaller than the second thermal capacity. 26. An ice protection system according to claim 23, wherein the control system is operable to receive a signal indicative of a demand heater device temperature, and to maintain the temperature of said at least one heater device in dependence on the demand heater device temperature. 27. An ice protection system according to claim 23, wherein: said at least one heater device includes at least one heater device having an associated temperature sensor and at least one heater device not having an associated temperature sensor; andthe control system is operable to determine the target heat output for said at least one heater device not having an associated temperature sensor as a function of the target heat output of a heater device having an associated temperature sensor.