Ride height leveling with selectable configurations: system and method
First Claim
1. A leveling control system adapted for operation with pressurized air from a pressurized air source, comprising:
- a configurable control valve (3) mounted on a second structure (5) having a lever (7) coupled to a first structure (11) wherein the lever (7) has an angular position based on a height difference between the first structure (11) and the second structure (5);
one or more air bags (13) disposed between the first structure (11) and the second structure (5);
the configurable control valve (3) further comprising;
a valve module (6) having;
a valve shaft (34) rotationally coupled in the valve module (6) and to the lever (7), the valve shaft (34) having an upper shaft portion (86) and a lower shaft portion (87), one of the upper shaft portion and lower shaft portion having a tongue (88) and the other of the upper shaft portion and lower shaft portion having a groove (89) coupling the upper shaft portion and lower shaft portion together when the tongue is inserted in the groove;
an upper rotor valve (35) coupled to the upper shaft portion (86) and a lower rotor valve (37) coupled to the lower shaft portion (87);
a dump chamber (69) pneumatically coupled to the one or more air bags (13);
a first ride height chamber (31) configured to receive air from the pressurized air source at an input port (19) through the upper rotor valve (35) and to exhaust air at an exhaust port (27) wherein air flow in the first ride height chamber (31) is controlled based on the angular position of the lever (7) and the upper rotor valve (35) when a selector assembly (47) selects air direction between the dump chamber (69) and the first ride height chamber (31); and
,a second ride height chamber (29) configured to receive air from the pressurized air source at the input port (19) through the lower rotor valve (37) and to exhaust air at the exhaust port (27) wherein air flow in the second ride height chamber (29) is controlled based on the angular position of the lever (7) and the lower rotor valve (37) when the selector assembly (47) selects air direction between the dump chamber (69) and the second ride height chamber (29); and
,a pilot selection module (8) having a selector chamber (71), wherein the selector chamber selectively directs air between the dump chamber (69) and the first ride height chamber (31) or the dump chamber (69) and the second ride height chamber (29) according to the angular position of the lever (7); and
,the valve module (6) and the pilot selection module (8) selected to have a configuration A that provides operating modes for a default ride height range mode A1, a raised second ride height range mode A2, and a dump mode A3.
1 Assignment
0 Petitions
Accused Products
Abstract
Disclosed is a configurable dynamic valve. In various embodiments the valve operates to control a pneumatic leveling system for vehicles and provide the capability for an operator to select an elevated or lowered ride height, to block air flow in and out of the leveling air bags, or to dump air from the air bags controlling the ride height. In various embodiments, the valve utilizes rotary disks which contain actuate apertures, wherein the disks form seals between ports which connect various inlet and outlet chambers such that the pneumatically selected operative disk apertures and ports provide air flow in or out of leveling air bags dynamically at a selected ride height during varying load and road conditions. In various embodiments, the modular design of the valve components allows for an easily configurable valve which may be customized to a particular application with a minimum of effort and manufacturing cost.
137 Citations
16 Claims
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1. A leveling control system adapted for operation with pressurized air from a pressurized air source, comprising:
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a configurable control valve (3) mounted on a second structure (5) having a lever (7) coupled to a first structure (11) wherein the lever (7) has an angular position based on a height difference between the first structure (11) and the second structure (5); one or more air bags (13) disposed between the first structure (11) and the second structure (5); the configurable control valve (3) further comprising; a valve module (6) having; a valve shaft (34) rotationally coupled in the valve module (6) and to the lever (7), the valve shaft (34) having an upper shaft portion (86) and a lower shaft portion (87), one of the upper shaft portion and lower shaft portion having a tongue (88) and the other of the upper shaft portion and lower shaft portion having a groove (89) coupling the upper shaft portion and lower shaft portion together when the tongue is inserted in the groove; an upper rotor valve (35) coupled to the upper shaft portion (86) and a lower rotor valve (37) coupled to the lower shaft portion (87); a dump chamber (69) pneumatically coupled to the one or more air bags (13); a first ride height chamber (31) configured to receive air from the pressurized air source at an input port (19) through the upper rotor valve (35) and to exhaust air at an exhaust port (27) wherein air flow in the first ride height chamber (31) is controlled based on the angular position of the lever (7) and the upper rotor valve (35) when a selector assembly (47) selects air direction between the dump chamber (69) and the first ride height chamber (31); and
,a second ride height chamber (29) configured to receive air from the pressurized air source at the input port (19) through the lower rotor valve (37) and to exhaust air at the exhaust port (27) wherein air flow in the second ride height chamber (29) is controlled based on the angular position of the lever (7) and the lower rotor valve (37) when the selector assembly (47) selects air direction between the dump chamber (69) and the second ride height chamber (29); and
,a pilot selection module (8) having a selector chamber (71), wherein the selector chamber selectively directs air between the dump chamber (69) and the first ride height chamber (31) or the dump chamber (69) and the second ride height chamber (29) according to the angular position of the lever (7); and
,the valve module (6) and the pilot selection module (8) selected to have a configuration A that provides operating modes for a default ride height range mode A1, a raised second ride height range mode A2, and a dump mode A3. - View Dependent Claims (2, 3, 4)
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5. A method for configurable dynamic leveling of a vehicle comprising:
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linking a vehicle chassis (5) and a vehicle axle (11) with a physical link (9) wherein the physical link (9) translates a vertical distance between the vehicle chassis (5) and the vehicle axle (11) to an angular translation of a rotational valve shaft assembly (33), which rotates within a configurable control valve (3), wherein the configurable control valve (3) may be manufacturer pre-configured in at least two configurations and for each configuration to operate in at least two operating modes comprising; a default operating mode and a second operating mode; wherein the configurable control valve (3) is configured to enable the default operating mode to maintain a default vehicle ride height range, and the second operating mode, depending on the configuration, is either a second vehicle ride height range, or a blocking mode wherein air flow in and out of leveling air bags is blocked for all angular translations of the rotational valve shaft assembly (33); actuating the operating mode as either the default operating mode, or the second operating mode by a selected pilot signal sent to a first shuttle valve assembly (41); leveling the vehicle by inflating or deflating one or more leveling air bags (13) positioned to raise or lower the vehicle chassis (5) above the vehicle axle (11) respectively, by pneumatically connecting the one or more leveling air bags (13) to a pressurized air source according to the angular translation of the rotational valve shaft assembly (33) to maintain the default vehicle ride height range when the configurable control valve (3) is operated in the default operating mode;
or when in the second operating mode;(a) leveling the vehicle by inflating or deflating the one or more leveling air bags (13) positioned to raise or lower the vehicle chassis (5) above the vehicle axle (11) respectively by pneumatically connecting the one or more leveling air bags (13) to the pressurized air source according to the angular translation of the rotational valve shaft assembly (33) to maintain at the second vehicle ride height range, or (b) blocking leveling by blocking air flow in and out of the leveling air bags (13) for all angular translations of the rotational valve shaft assembly (33); wherein the second operating mode (a) leveling or (b) blocking leveling are choices for manufacturer pre-configured configurations of the configurable control valve (3);
wherein the default operating mode or second operating mode (a) or (b) is activated by the pilot signal sent to the first shuttle valve assembly (41);
wherein all of the manufacturer pre-configured configurations are determined by the substitution of a manufacturer configurable component which is either a ride height configurable component or a blocking configurable component;whereby the configurable control valve (3) operates in at least two modes for at least two configurations, the first configuration having operating modes of at least the default ride height range and the second vehicle ride height range, and the second configuration having operating modes of at least the default ride height range and the blocking mode, wherein the operating mode is selectable and the configuration is determined by the substitution of a manufacturer configurable component chosen from a limited set of components. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A leveling control system adapted for operation with pressurized air from a pressurized air source comprising:
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a valve (3) mounted on a second structure (5) having a lever (7) coupled to a first structure (11) wherein the lever (7) has an angular position based on a height difference between the first structure (11) and the second structure (5); one or more air bags (13) disposed between the first structure (11) and the second structure (5); the valve (3) further comprising; a valve module (6) having; a valve shaft (34) rotationally coupled in the valve module and to the lever (7), the valve shaft (34) having an upper shaft portion (86) and a lower shaft portion (87), one of the upper shaft portion and lower shaft portion having a tongue (88) and the other of the upper shaft portion and lower shaft portion (89) having a groove coupling the upper shaft portion and lower shaft portion together when the tongue is inserted in the groove; an upper rotor valve (35) coupled to the upper shaft portion (86) and a lower rotor valve (37) coupled to the lower shaft portion (87); a first ride height chamber (31) configured to receive air from the pressurized air source at an input port (19) through the upper rotor valve (35) and to exhaust air at an exhaust port (27) wherein air flow in the first ride height chamber (31) is controlled based on the angular position of the lever (7) and the upper rotor valve (35) when a selector assembly (47) selects air direction between a dump chamber (69) and the first ride height chamber (31); and
,a second ride height chamber (29) configured to receive air from the pressurized air source at the input port (19) through the lower rotor valve (37) and to exhaust air at the exhaust port (27) wherein air flow in the second ride height chamber (29) is controlled based on the angular position of the lever (7) and the lower rotor valve (37) when the selector assembly (47) selects air direction between the dump chamber (69) and the second ride height chamber (29); and
,a dump chamber (69) pneumatically coupled to the one or more air bags (13); a pilot selection module (8) having a selector chamber (71), wherein the selector chamber selectively directs air between the dump chamber (69) and the first ride height chamber (31) or the dump chamber (69) and the second ride height chamber (29) according to the angular position of the lever (7); and
,the valve module (6) and the pilot selection module (8) selected to have a configuration option B that provides operating modes for a default ride height range mode B1, a lowered second ride height range mode B2, and a dump mode B3.
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16. A leveling control system adapted for operation with pressurized air from a pressurized air source, comprising:
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a configurable control valve (3) mounted on a second structure (5) having a lever (7) coupled to a first structure (11) wherein the lever (7) has an angular position based on a height difference between the first structure (11) and the second structure (5); one or more air bags (13) disposed between the first structure (11) and the second structure (5); the configurable control valve (3) further comprising; a valve module (6) having; a valve shaft (34) rotationally coupled in the valve module and to the lever (7), the valve shaft (34) having an upper shaft portion (86) and a lower shaft portion (87), one of the upper shaft portion and lower shaft portion having a tongue (88) and the other of the upper shaft portion and lower shaft portion (89) having a groove coupling the upper shaft portion and lower shaft portion together when the tongue is inserted in the groove; an upper rotor valve (35) coupled to the upper shaft portion (86) and a lower rotor valve (37) coupled to the lower shaft portion (87); a first ride height chamber (31) configured to receive air from the pressurized air source at an input port (19) through the upper rotor valve (35) and to exhaust air at an exhaust port (27) wherein air flow in the first ride height chamber (31) is controlled based on the angular position of the lever (7) and the upper rotor valve (35) when a selector assembly (47) selects air direction between a dump chamber (69) and the first ride height chamber (31); and
,a second ride height chamber (29) configured to receive air from the pressurized air source at the input port (19) through the lower rotor valve (37) and to exhaust air at the exhaust port (27) wherein air flow in the second ride height chamber (29) is controlled based on the angular position of the lever (7) and the lower rotor valve (37) when the selector assembly (47) selects air direction between the dump chamber (69) and the second ride height chamber (29); and
,a dump chamber (69) pneumatically coupled to the one or more air bags (13); a pilot selection module (8) having a selector chamber (71), wherein the selector chamber selectively directs air between the dump chamber (69) and the first ride height chamber (31) or the dump chamber (69) and the second ride height chamber (29) according to the angular position of the lever (7); and
,the valve module (6) and the pilot selection module (8) selected to have a configuration option C that provides operating modes for a default ride height range mode C1, a blocking mode C2 wherein air flow in and out of the valve is blocked for all angles of the lever (7), and a dump mode C3.
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Specification