IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0832498
(2010-07-08)
|
등록번호 |
US-8839967
(2014-09-23)
|
우선권정보 |
DE-10 2009 032 267 (2009-07-08) |
발명자
/ 주소 |
- Schneider, Klaus
- Sawodny, Oliver
- Neupert, Joerg
- Arnold, Eckard
- Knierim, Karl Lukas
|
출원인 / 주소 |
- Liebherr-Werk Nenzing GmbH
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
2 |
초록
▼
The present invention relates to a crane for handling a load hanging on a load cable, comprising a slewing gear for rotating the crane, a luffing gear for luffing up the boom, and a hoisting gear for lowering or lifting the load hanging on the load cable, with a control unit for calculating the actu
The present invention relates to a crane for handling a load hanging on a load cable, comprising a slewing gear for rotating the crane, a luffing gear for luffing up the boom, and a hoisting gear for lowering or lifting the load hanging on the load cable, with a control unit for calculating the actuation of slewing gear, luffing gear and/or hoisting gear, wherein the calculation of the actuation commands for actuating slewing gear, luffing gear and/or hoisting gear is effected on the basis of a desired movement of the load indicated in Cartesian coordinates.
대표청구항
▼
1. A crane for handling a load hanging on a load cable from a boom, comprising a slewing gear arranged for rotating the crane,a luffing gear arranged for luffing up the boom,a hoisting gear arranged for lowering or lifting the load hanging on the load cable, anda control unit arranged for calculatin
1. A crane for handling a load hanging on a load cable from a boom, comprising a slewing gear arranged for rotating the crane,a luffing gear arranged for luffing up the boom,a hoisting gear arranged for lowering or lifting the load hanging on the load cable, anda control unit arranged for calculating actuation commands of at least one of he stewing gear, luffing gear and hoisting gear, whereinthe control unit is arranged to dampen pendulum load by calculating only the commands for actuating at least one of the stewing gear, luffing gear and hoisting gear based upon a desired movement of the load indicated in Cartesian coordinates, andinversion of a physical model of the load hanging on the load cable and the crane, the inverted physical model converting a given movement of the load hanging on the load cable in the Cartesian coordinates into actuation signals for at least one of the stewing gear, luffing gear and hoisting gear, whereas the actuation signals are calculated based on the quasi-static decoupling of the hoisting movement in the z-direction from the movement in the horizontal x- and y-direction. 2. The crane according to claim 1, comprising one or more sensors for determining one or more measured variables concerning position and/or movement of the load and/or the crane, in particular for determining one or more of the variables cable angle radial, cable angle tangential, luffing angle, slewing angle, cable length and derivatives thereof, wherein the measured variable or variables are included in the inversion of the physical model. 3. The crane according to claim 1, comprising one or more sensors for determining one or more measured variables concerning position and/or movement of the load and/or the crane, in particular for determining one or more of the variables cable angle radial, cable angle tangential, luffing angle, slewing angle, cable length and derivatives thereof, wherein the measured variable or variables are fed back into the control unit. 4. The crane according to claim 3, wherein a first transformation unit is provided, which on the basis of the measured variable or variables calculates actual position and/or actual movement of the load in Cartesian coordinates, in particular one or more of the variables position in x, y and z, velocity in x, y and z, acceleration in x and y, jerk in x and y. 5. The crane according to claim 1, comprising one or more cable angle sensors, wherein measured values of the one or more cable angle sensors are fed back into the control unit. 6. The crane according to claim 1, comprising an input unit for entering control commands by an operator, wherein between input unit and control unit a second transformation unit is provided, which calculates the desired movement of the load in Cartesian coordinates on the basis of the control commands. 7. The crane according to claim 6, comprising one or more sensors for determining measured variables with respect to position and/or movement of the crane, in particular for determining luffing angle and/or stewing angle, wherein the second transformation unit is initialized with reference to the measured variable or variables. 8. The crane according to claim 1, comprising a path planning module which generates trajectories from control commands of an operator and/or an automation system, which serve as input variables for the control unit. 9. The crane according to claim 8, wherein the trajectories are generated in crane coordinates and a second transformation unit is arranged between path planning module and control unit. 10. The crane according to claim 8, wherein the trajectories are optimally generated in the path planning module from the control commands in consideration of system constraints. 11. The crane according to claim 1, wherein the control unit actuates the hoisting gear directly with reference to control commands of an operator and/or an automation system, while the actuation of the slewing gear and of the luffing gear is effected via the load pendulum damping. 12. The crane according to claim 1 comprising a vertically extending tower rotatably arranged on the slewing gear and with the boom pivotally arranged on the tower about a horizontal luffing axis. 13. A method for actuating a crane for handling a load hanging on a load cable, comprising the steps of slewing or rotating the crane about a vertical axis,luffing up a boom secured to the crane about a horizontal axis,luffing or lowering a load suspended from a cable on the boom,calculating actuation commands for at least one of slowing, luffing and hoisting, anddampening pendulum load bycalculating only the commands for actuating at least one of a slowing gear, a luffing gear and a hoisting gear based upon a desired movement of the load indicated in Cartesian coordinates, andinverting a physical model of the load hanging on the load cable and the crane, the inverted physical model converting a given movement of the load hanging on the load cable in the Cartesian coordinates into actuation signals for at least one of the slowing gear, the luffing gear and the hoisting gear, whereas the actuation signals are calculated based on the quasi-static decoupling of the hoisting movement in the z-direction from the movement in the horizontal x- and y-direction.
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