Controllable cab suspension
First Claim
1. A suspension system supporting a vehicle cab relative to a vehicle frame, comprising:
- (a) at least one flexible member flexibly suspending the vehicle cab relative to the frame, the at least one flexible member being an air spring;
(b) at least one controllable fluid damper housing a field responsive fluid interconnected between the cab and the frame; and
(c) a controller that controls a damping level of said at least one controllable fluid damper to control motion of the cab relative to the frame and that adjusts an air level in the air spring to level said cab, the air level being adjusted responsive to a position sensor.
1 Assignment
0 Petitions
Accused Products
Abstract
A controllable secondary suspension system (20) for vehicle cabs (18) and the like which flexibly suspends and controls movement of the vehicle'"'"'s cab (22) relative to the vehicle'"'"'s frame (24). The system (20) includes at least one flexible support (26), which are preferably two spaced apart air springs flexibly suspending the cab (22) relative to the frame (24), at least one controllable fluid damper, and preferably two spaced-apart controllable fluid dampers, such as Magnetorheological (MR) fluid dampers (28, 28'"'"'), interconnected between the cab (22) and the frame (24). In one aspect, the system (20) may include at least one sensor, such as a relative position sensor (30), for providing relative vibration information between the cab (22) and the frame (24), and a controller (36) for processing the relative vibration information to determine current to be supplied to the controllable fluid damper (28) to control the degree of damping thereof. Signals from additional sensors, such as a speed sensor (32), steering angle sensor (34), brake sensor (46), throttle position sensor (48), and vertical and lateral acceleration sensors (40, 44) may be used to enhance control. Roll, pitch, lurch and ride may be simultaneously or independently controlled.
131 Citations
26 Claims
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1. A suspension system supporting a vehicle cab relative to a vehicle frame, comprising:
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(a) at least one flexible member flexibly suspending the vehicle cab relative to the frame, the at least one flexible member being an air spring; (b) at least one controllable fluid damper housing a field responsive fluid interconnected between the cab and the frame; and (c) a controller that controls a damping level of said at least one controllable fluid damper to control motion of the cab relative to the frame and that adjusts an air level in the air spring to level said cab, the air level being adjusted responsive to a position sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A controllable cab suspension system for a vehicle having a longitudinal roll axis which flexibly suspends and controls movement of a cab of the vehicle relative to a frame of the vehicle comprising:
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(a) at least one flexible member flexibly suspending the cab relative to the frame, (b) at least one controllable fluid damper interconnected between the cab and the frame, (c) at least one sensor providing vibration information about the cab, (d) a controller for processing said vibration information to determine current to be supplied to said at least one controllable fluid damper to control damping thereof; and wherein said controller includes driver input which substantially locks up vertical motion between the frame and the cab. - View Dependent Claims (23)
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24. A controllable cab suspension system for a vehicle for flexibly suspending and controlling movement of the vehicle'"'"'s cab relative to the vehicle'"'"'s frame, comprising:
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(a) at least two flexible elements which are laterally spaced and which flexibly suspend the vehicle'"'"'s cab relative to the vehicle'"'"'s frame, (b) at least two controllable fluid dampers which are laterally spaced and interconnected between the vehicle'"'"'s cab and the vehicle'"'"'s frame, (c) at least one position sensor providing information representative of relative displacement of the vehicle'"'"'s cab relative to the vehicle'"'"'s frame, and (d) a speed sensor for providing a speed of the vehicle, (e) a steering angle sensor for providing a steering angle of the vehicle, and (f) a controller for processing said relative displacement to derive ride control signals to control damping of said at least two controllable fluid dampers thereby controlling vertical ride, said controller further processing said speed and said steering angle to determine a roll force estimate and providing current to said at least two controllable fluid dampers to control roll motion of said vehicle'"'"'s cab relative to said vehicle'"'"'s frame as a function of said roll force estimate.
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25. A controllable cab suspension system for a vehicle flexibly suspending and controlling movement of the vehicle'"'"'s cab relative to the vehicle'"'"'s frame, comprising:
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(a) two air springs which are laterally spaced about, and are located on either side of a roll axis which flexibly suspend the vehicle'"'"'s cab relative to the vehicle'"'"'s frame, (b) two magnetorheological fluid dampers which are laterally spaced about, and located on either side of said roll axis and interconnected between the vehicle'"'"'s cab and the vehicle'"'"'s frame, (c) a position sensor which is centrally located adjacent to said roll axis providing information representative of relative displacement between the cab and the frame, (d) at least one other sensor for providing information related to roll of the cab, and (f) a controller for processing said relative displacement to derive ride control signals to control damping in said two magnetorheological fluid dampers thereby controlling vertical ride, said controller further processing said information regarding a condition of roll of the cab and providing current to said two magnetorheological fluid dampers to substantially restrain roll motion of said cab relative according to a predetermined profile.
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26. A controllable cab suspension system for a vehicle flexibly suspending and controlling movement of the vehicle'"'"'s cab relative to the vehicle'"'"'s frame, comprising:
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(a) at least one air spring for supporting the vehicle'"'"'s cab, (b) a first magnetorheological fluid damper which is laterally spaced about, and located on a first side of a longitudinal roll axis of said cab, (d) a second magnetorheological fluid damper which is laterally spaced about, and located on a second side of said longitudinal roll axis, said first and second magnetorheological fluid dampers interconnected between the vehicle'"'"'s cab and the vehicle'"'"'s frame, (e) first sensor means for providing vibration information about the cab, (f) second sensor means for providing information related to roll of the cab, (g) means for processing said vibration information to derive ride control signals to control damping in said two magnetorheological fluid dampers thereby controlling vertical ride, and (h) means for processing said information related to roll to anticipate roll of the cab and providing current to said two magnetorheological fluid dampers to restrain roll motion of the cab.
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Specification