Nowadays position pickup units are commonly used in order to measure the rotation position of a shaft for operating a landing flap or landing slat or a brake flap in an aircraft. In the case of failure of such a position pickup unit (PPU) the corresponding drive motor of the shaft has to be switched
Nowadays position pickup units are commonly used in order to measure the rotation position of a shaft for operating a landing flap or landing slat or a brake flap in an aircraft. In the case of failure of such a position pickup unit (PPU) the corresponding drive motor of the shaft has to be switched off because position data is no longer present. According to one embodiment of the present invention a device for determining the rotation angle of a shaft in an aircraft is stated, with said device comprising a shaft and a motor, wherein rotation of the shaft is measured by way of the motor. This measuring data can be evaluated together with the data of the PPU. In this way improved system availability is ensured.
대표청구항▼
The invention claimed is: 1. A device for determining the rotation angle of a shaft in an aircraft, the device comprising: a shaft designed for operating a device, the device selected from the group consisting of a brake flap, a landing flap, a landing slat, a rudder, an aileron and an elevator; a
The invention claimed is: 1. A device for determining the rotation angle of a shaft in an aircraft, the device comprising: a shaft designed for operating a device, the device selected from the group consisting of a brake flap, a landing flap, a landing slat, a rudder, an aileron and an elevator; a motor, which rotates the shaft and to detect first rotation data that correspond to a first rotation angle of a first region of the shaft, and wherein the motor is designed to carry out said detection in an absolute manner; a position pickup unit designed to detect second rotation data that correspond to a second rotation angle of a second region of the shaft; and a synchronisation unit designed to synchronise the first rotation data with the second rotation data wherein the synchronization unit compensates for any motor drift of the motor the basis of the first and second rotation data. 2. The device of claim 1, further comprising: a control unit; wherein the motor is designed to transmit the first rotation data to the control unit; wherein the control unit is designed to control or regulate the rotation of the shaft on the basis of the transmitted first rotation data. 3. The device of claim 2, further comprising: a control unit; wherein the motor is designed to transmit the first rotation data to the control unit; wherein the position pickup unit is designed to transmit the second rotation data to the control unit; wherein the control unit is designed to control or regulate the rotation of the shaft on the basis of the transmitted first and second rotation data. 4. The device of claim 3, wherein the control unit for controlling or regulating the rotation of the shaft is designed to only regulate or control the rotation of the shaft on the basis of the transmitted first rotation data when the transmitted second rotation data is faulty or incomplete. 5. The device of claim 3, wherein the control unit for controlling or regulating the rotation of the shaft is designed to regulate or control the rotation of the shaft on the basis of the transmitted first and second rotation data, even if the transmitted second rotation data is faulty or incomplete. 6. An aircraft comprising a device for determined the rotation angle of a shaft in the aircraft, the device comprising: a shaft designed for operating a device, the device selected from the group consisting of a brake flap, a landing flap,a landing slat, a rudder, an aileron and an elevator; a motor, which rotates the shaft and to detect first rotation data that correspond to a first rotation angle of a first region of the shaft, and wherein the motor is designed to carry out said detection in an absolute manner; a position pickup unit designed to detect second rotation data that correspond to a second rotation angle of a second region of the shaft; a synchronization unit designed to synchronize the first rotation data with the second rotation data;and wherein said device is integrated into a wing of the aircraft and compensates for any motor drift of the motor on the basis of the first and second rotation data. 7. A method for determining the rotation angle of a shaft in an aircraft, comprising the steps of: rotating the shaft by a motor; detecting first rotation data that correspond to a first rotation angle of a first region of the shaft, by the motor in an absolute manner; detecting second rotation data that corresponds to a second rotation angle of a second region of the shaft, by a position pickup unit; synchronizing the first rotation data with the second rotation data; compensating for any motor drift of the motor on the basis of the first and second rotation data. 8. The method of claim 7, further comprising the steps of: transmitting the first rotation data from the motor to a control unit; transmitting the second rotation data from the position pickup unit to the control unit; controlling or regulating the rotation of the shaft on the basis of the transmitted first and second rotation data by the control unit.
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이 특허에 인용된 특허 (8)
Barba Valentin, Airplane high lift surface drive system.
Rozman Gregory I. (Rockford IL) Maddali Vijay K. (Rockford IL) Markunas Albert L. (Roscoe IL), Rotor position detector with back EMF voltage estimation.
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