Leveling system for lift device
First Claim
1. A method for controlling a leveling system of a lift device, comprising:
- providing a lift device including a chassis having a first end and an opposing second end, a first leveling assembly coupled to the first end of the chassis, and a second leveling assembly coupled to the opposing second end of the chassis, wherein each of the first leveling assembly and the second leveling assembly includes a pair of tractive elements coupled to the chassis that are repositionable relative to the chassis about (i) a longitudinal axis defined by the chassis and (ii) a lateral axis defined by an interface between the chassis and each of the first leveling assembly and the second leveling assembly, respectively, such that (i) the first leveling assembly and the second leveling assembly are configured to facilitate a roll adjustment about the longitudinal axis and (ii) the first leveling assembly and the second leveling assembly are configured to facilitate a pitch adjustment of the first end and the opposing second end of the chassis, respectively, about the lateral axis, and wherein the lift device is operable in a first mode and a second mode;
actively controlling the first leveling assembly and the second leveling assembly during the first mode; and
actively controlling the first leveling assembly and passively controlling the second leveling assembly during the second mode such that the second leveling assembly freely floats.
1 Assignment
0 Petitions
Accused Products
Abstract
A lift device includes a chassis, a boom pivotally coupled to the chassis, a first leveling assembly pivotally coupled to a first end of the chassis, a second leveling assembly pivotally coupled to an opposing second end of the chassis, and a control system. The first leveling assembly includes a first pair of actuators positioned to facilitate a first pitch adjustment and a first roll adjustment of the first end of the chassis. The second leveling assembly includes a second pair of actuators positioned to facilitate a second pitch adjustment and a second roll adjustment of the opposing second end of the chassis. The control system is configured to (i) actively control the first pair of actuators and the second pair of actuators during a first mode of operation, and (ii) actively control the first pair of actuators and facilitate passive control of the second pair of actuators during a second mode of operation.
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Citations
15 Claims
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1. A method for controlling a leveling system of a lift device, comprising:
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providing a lift device including a chassis having a first end and an opposing second end, a first leveling assembly coupled to the first end of the chassis, and a second leveling assembly coupled to the opposing second end of the chassis, wherein each of the first leveling assembly and the second leveling assembly includes a pair of tractive elements coupled to the chassis that are repositionable relative to the chassis about (i) a longitudinal axis defined by the chassis and (ii) a lateral axis defined by an interface between the chassis and each of the first leveling assembly and the second leveling assembly, respectively, such that (i) the first leveling assembly and the second leveling assembly are configured to facilitate a roll adjustment about the longitudinal axis and (ii) the first leveling assembly and the second leveling assembly are configured to facilitate a pitch adjustment of the first end and the opposing second end of the chassis, respectively, about the lateral axis, and wherein the lift device is operable in a first mode and a second mode; actively controlling the first leveling assembly and the second leveling assembly during the first mode; and actively controlling the first leveling assembly and passively controlling the second leveling assembly during the second mode such that the second leveling assembly freely floats. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A method for controlling a leveling system of a lift device, comprising:
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providing a lift device including a chassis having a first end and an opposing second end, a first leveling assembly coupled to the first end of the chassis, and a second leveling assembly coupled to the opposing second end of the chassis, wherein the first leveling assembly and the second leveling assembly are configured to facilitate a roll adjustment and a pitch adjustment of the first end and the opposing second end of the chassis, respectively, wherein the second leveling assembly includes one or more valves positioned to facilitate at least one of (i) selectively isolating a second pair of actuators of the second leveling assembly from a high pressure fluid source and (ii) selectively fluidly coupling and decoupling the second pair of actuators, wherein the lift device is operable in a first mode and a second mode, and wherein the first mode of operation includes a boom operation mode; engaging the one or more valves during the boom operation mode such that the second pair of actuators fluidly decouple from each other; actively controlling a first pair of actuators of the first leveling assembly and the second pair of actuators of the second leveling assembly to maintain the chassis level while a boom of the lift device is being operated in the boom operation mode; selectively limiting a speed of the lift device during the boom operation mode; engaging the one or more valves during the second mode of operation such that the second pair of actuators fluidly couple together; and actively controlling the first leveling assembly and passively controlling the second leveling assembly during the second mode such that the second leveling assembly freely floats.
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15. A method for controlling a leveling system of a lift device, the method comprising:
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providing a lift device including a chassis having a first end and an opposing second end, a first actuator coupled to the first end of the chassis, a second actuator coupled to the first end of the chassis, a third actuator coupled to the opposing second end of the chassis, and a fourth actuator coupled to opposing the second end of the chassis, wherein each of the first actuator, the second actuator, the third actuator, and the fourth actuator couples a tractive element to the chassis; fluidly coupling at least two of the first actuator, the second actuator, the third actuator, and the fourth actuator such that the at least two of the first actuator, the second actuator, the third actuator, and the fourth actuator freely float; and fluidly decoupling and actively controlling the at least two to the first actuator, the second actuator, the third actuator, and the fourth actuator; wherein the tractive elements are repositionable relative to (i) a longitudinal axis defined by the chassis and (ii) a lateral axis defined by the chassis such that the first actuator, the second actuator, the third actuator, and the fourth actuator are configured to facilitate a roll adjustment about the longitudinal axis and a pitch adjustment about the lateral axis.
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Specification