A dividing wall mounting device includes: a main device body extending along a central axis of a through-hole; and a flexible flange protruding laterally from an intermediate position of the main device body, and when the dividing wall mounting device is inserted into the through-hole from one end side in the axial direction, the flexible flange passing through the through-hole in a first state of collapsing towards another end side in the axial direction to narrow due to contact with an opening edge of the through-hole, and when the dividing wall mounting device is pulled back in a direction opposite to the insertion, the flexible flange being press-fitted into the through-hole in a second state of collapsing towards the one end side in the axial direction to narrow due to contact with the opening edge and having an outer diameter larger than an outer diameter in the first state.

In a spoke wheel that includes: a rim; a hub; and a plurality of spokes connecting the rim with the hub, the spokes each having an end portion connected with a connection portion disposed at a lateral surface portion on an outside in a width direction of the rim, the rim includes a raised portion that is raised from the connection portion to the outside in the width direction.

An inflation valve for a tubeless tire may include a valve body defining a cavity having a proximal opening and a distal opening. A valve stem extends through the cavity and includes a plug at a proximal end of the valve stem. The proximal opening of the cavity is defined by a beveled surface, and an outer diameter of the beveled surface is larger than an inner diameter of the valve body. The valve is transitionable between: a) a closed position, where a resilient surface of the plug engages the beveled surface to seal the cavity, and b) an open position, where the resilient surface of the plug is spaced from the beveled surface to unseal the cavity.

An inflation manifold connected to dual pneumatic tires by air hoses provides a central location for tire inflation and location of pressure sensors. A hose block connected to dual pneumatic tires by air hoses provides a central location for location of pressure sensors. The pressure sensors may be TPMS sensors or a combination of TPMS sensor and pressure gauge.

An inflation manifold connected to dual pneumatic tires by air hoses provides a central location for tire inflation and location of pressure sensors. A hose block connected to dual pneumatic tires by air hoses provides a central location for location of pressure sensors. The pressure sensors may be TPMS sensors or a combination of TPMS sensor and pressure gauge.

A housing (4) for a tyre parameter monitoring system is provided. The housing (4) comprises two arms (10, 12) that are shaped and spaced to provide a clamp-in fitting (18) for engaging with a valve stem (34) of a clamp-in type valve (30) such that the valve stem (34) of the clamp-in type valve (30) is pivotably engaged with the housing (4) and such that the angle between the valve stem (34) of the clamp-in type valve (30) and the housing (4) is variable. The housing (4) also comprises a snap connection fitting (16) for engaging a valve stem (8) of a snap-in type valve (6). The snap connection fitting (16) is positioned between the two arms (10, 12).

A housing (4) for a tyre parameter monitoring system is provided. The housing (4) comprises two arms (10, 12) that are shaped and spaced to provide a clamp-in fitting (18) for engaging with a valve stem (34) of a clamp-in type valve (30) such that the valve stem (34) of the clamp-in type valve (30) is pivotably engaged with the housing (4) and such that the angle between the valve stem (34) of the clamp-in type valve (30) and the housing (4) is variable. The housing (4) also comprises a snap connection fitting (16) for engaging a valve stem (8) of a snap-in type valve (6). The snap connection fitting (16) is positioned between the two arms (10, 12).

A tire monitoring apparatus comprises a sensor housing having a connection part integrated with the sensor housing, the connection part having an elongated opening and a corresponding mounting feature in a wheel rim, wherein a screw extends through the elongated opening and connects with the corresponding mounting feature in the wheel rim, thereby when the screw is not tightened fully, the sensor housing can be rotated with respect to the corresponding mounting feature in the wheel rim, and when the screw is tightened fully, the sensor housing is secured in place and does not rotate with respect to the corresponding mounting feature in the wheel rim.

A tire monitoring apparatus comprises a sensor housing having a connection part integrated with the sensor housing, the connection part having an elongated opening and a corresponding mounting feature in a wheel rim, wherein a screw extends through the elongated opening and connects with the corresponding mounting feature in the wheel rim, thereby when the screw is not tightened fully, the sensor housing can be rotated with respect to the corresponding mounting feature in the wheel rim, and when the screw is tightened fully, the sensor housing is secured in place and does not rotate with respect to the corresponding mounting feature in the wheel rim.

A tire structure disposed at a rim is provided. The tire structure includes a tire body, a flexible sealing member and a nozzle. The tire body is ring-shaped and includes a groove and two beads. The flexible sealing member is connected to the tire body to form an inflating space with the groove, and the flexible sealing member includes a through hole. The nozzle is disposed at the flexible sealing member. The nozzle includes a base and a valve stem. The base includes a screw hole and is disposed at a far side of the flexible sealing member. The screw hole corresponds to the through hole. The valve stem includes a fastening end and an inflating channel. The fastening end is configured to insert into the screw hole, and the inflating channel is configured to allow the gas to pass therethrough.