A tire pressure regulating system is disclosed for adjusting tire pressures of pneumatic tires of vehicle wheels of a plurality of vehicle axles of a motor vehicle while driving. The tire pressure regulating system comprises: at least one switchover valve, an axle valve, a wheel valve and a valve. A motor vehicle comprising the tire pressure regulating system is also disclosed.

A rotary joint assembly for a tire pressure management system includes a rotating portion. The rotating portion has a first air passageway and a second air passageway. The first air passageway and the second air passageway are in fluid communication with a chamber formed in the rotating portion. The rotary joint assembly also includes a non-rotating portion. The non-rotating portion has a third air passageway. The third air passageway is in fluid communication with the second air passageway via a sealed space. The sealed space is provided between the rotating portion and the non-rotating portion. A valve assembly is positioned within the chamber. The valve assembly includes a piston and a biasing member. The valve assembly allows a flow of pressurized air to be directed from the first air passageway to the third air passageway or a flow of pressurized air to be directed from the third air passageway to the first air passageway.

The present document relates to a tire inflation system having a non-rotatable element and a rotatable element mounted at the non-rotatable element, a fluid path extending through a cavity of the non-rotatable element and through a cavity of the rotatable element for passing a fluid from the non-rotatable element to the rotatable element. At least one of the rotatable element and the non-rotatable element is movable in an axial direction with respect to the other between a standard position and an inflation position, and is configured to slide towards the inflation position against the bias of a return spring, in response to a fluid pressure being provided in the fluid path. In the inflation position the gasket is in sealing engagement with the contact area.

In one aspect, a method provides a reciprocating bolt by a bolt assembly having a bolt assembly body, a cap affixed to the bolt assembly body, and a base affixed to the bolt assembly body opposite the cap. The method includes biasing a bolt carrier in the bolt assembly body in a retracted position relative to the bolt assembly, resulting in a center portion of a diaphragm disposed between the cap and the bolt assembly body being deflected toward the cap. The method also includes applying an actuation force to the bolt carrier so as to move the bolt carrier from the retracted position to an extended position relative to the bolt assembly by oppositely deflecting the center portion of the diaphragm toward the base, and discontinuing the applying of the actuation force while the bolt carrier is in the extended position.

The present invention concerns un rotary joint (10, 10) apt to transfer a fluid between two entities, one of which is in rotary motion with respect to the other, said rotary joint (10, 10) being characterised in that it comprises a cylindrical internal element (11), apt to be fixed to said entity in rotary motion, and a plurality of annular external elements (14, 15, 17, 18), which can be coupled and which are self-centering, which can be fitted modularly, said external elements (14, 15, 17, 18) comprising at least two head elements (14), at least two housing elements (15) of respective gaskets (16), two bearing elements (17) and at least one fluid inlet element (18), said at least one fluid inlet element (18) being placed in an intermediate position between said two bearing elements (17), said at least two housing elements (15) of respective gaskets (16) being arranged externally with respect to said two bearing elements (17) and said at least two head elements (14) being arranged externally with respect to said at least two housing elements (15) of respective gaskets (16), said gaskets (16) defining an annular shaped sealed area in the space delimited laterally by the same gaskets (16), internally by said internal element (11) and externally by said external elements (14, 15, 17, 18) comprised between said gaskets (16), said sealed area being accessible on one side through said fluid inlet element (18) and on the other side through at least one fluid passage channel (20, 21) passing through the body of said internal element (11) up to one of the two axial ends.

Moreover, the invention concerns pressure regulation systems of a tire (B) comprising said rotary joint (10, 10).

A central tire inflation system for maintaining tire inflation on a vehicle is provided. The central tire inflation system includes a rotary union assembly having a housing that is coupled to and rotates with the hubcap. The housing is rotationally coupled to a stationary shaft. A flexible torque transfer shaft is connected to the stationary shaft on one end and to an axle plug on the other end. The axle plug has a hub forming a bore where the hub is movable on a web of material. The flexible torque transfer shaft and hub have cooperative non-circular shapes to resist rotation. An air vent is provided in the rotary union assembly that is isolated from the lubrication area, which inhibits the pressurized air from the central tire inflation system from pressurizing the lubrication area.

A tire pressurization arrangement on a vehicle in which the pressurization of the tire is controlled by a vehicle control unit and the vehicle control unit is notified of a desired tire pressure or desired tire volume. An air flow rate in a supply line to the tire is established so that the time to pressurize the tire to the desired tire pressure/volume is calculable, or the time taken to pressurize the tire to an interval pressure/volume is calculable, said interval pressure/volume being between a current tire pressure/volume and the desired pressure/volume, and if the time to pressurize the tire to the desired pressure is exceeded, the control unit gives a warning signal and/or stops deflation or inflation.

A rotary feedthrough assembly for a tire inflation system for a vehicle is disclosed. The assembly may have a stationary part comprising a first section of a main fluid line and a first section of a pilot fluid line. A rotatable part may be rotatably mounted on the stationary part and configured to support a pneumatic tire. The rotatable part may have a second section of the main fluid line and a second section of the pilot fluid line. A first annular seal chamber may be radially disposed between the stationary part and the rotatable part. The first annular seal chamber may provide fluid communication between the first section of the main fluid line and the second section of the main fluid line. A second annular seal chamber may be radially disposed between the stationary part and the rotatable part. The second annular seal chamber may provide fluid communication between the first section of the pilot fluid line and the second section of the pilot fluid line.

A rotary union for a tire inflation system includes an axle housing and a wheel axle rotatably mounted in the axle housing. The wheel axle has a flange for attachment of a wheel rim. The wheel axle is received by a passage socket that is connected for conjoint rotation to the wheel axle and supported by a radial bearing relative to a bearing seat within the axle housing. A compressed air duct is disposed inside a cylindrical wall of the passage socket such that the compressed air duct is connected at one end to a pressure connector mounted on the axle housing and at the other end to a tire connector mounted on the passage socket. The passage socket is sealed rotationally movably with respect to an adjacent inner side of the axle housing such that an enclosed chamber is formed between the pressure connector and the compressed air duct.

A tire pressure regulating system is disclosed for adjusting tire pressures of pneumatic tires of vehicle wheels of a plurality of vehicle axles of a motor vehicle while driving. The tire pressure regulating system comprises: at least one switchover valve, an axle valve, a wheel valve and a valve. A motor vehicle comprising the tire pressure regulating system is also disclosed.