A tire pressure sensor attached to an air valve includes a body and two wings. The body has a face located between the two wings. The wings have ridges extending from the face, in a gradually expanding curved arc, to form an enlarged end. The ridges and the face together form a groove therebetween. An air valve includes a tube, a nut and a connector which is connected to one end of the tube. The nut is threaded onto the tube. The connector has end portions extending from two ends thereof. The connecting portion of the connector is engaged with the groove, and the protrusions abut against the inside of the ridges. The nut is rotated to drive the tube, and the connector presses the protrusions to contact against the ridges. This achieves a one-time lock attachment in a single step, offering improved functionality.

Embodiments of the disclosure relate to devices for controlling the pressure of bicycle tire. The devices generally include a casing configured to be housed inside a bicycle wheel and in which are arranged: a measurement unit comprising at least one sensor capable of measuring a pressure of the bicycle tire and producing a signal indicative of the value of the pressure, a transmission unit electrically connected to the measurement unit and capable of transmitting the signal to an external display, and a battery. The casing includes an opening passing through the casing, from an upper face to a lower face, the opening presenting at least one part flaring from its lower face towards the upper face, so as to define a slope adapted to fit a flared support, corresponding to a foot of the valve of the wheel.

A pressure sensing assembly configured to be attached to a bicycle wheel having a tire and a rim mounted to the tire. The pressure sensing assembly includes a housing, a pressure transmitting member, a sensing chamber defined by the housing and the pressure transmitting member, and a sensing element. The pressure transmitting member is coupled the housing and has a central portion offset from the plane in a first direction. The sensing element is offset from the plane in a second direction opposite the first direction. The pressure transmitting member is configured to transmit a pressure in the tire to the sensing element via the sensing chamber.

A multi-functional TPMS sensor fastener torque tool includes a torque driver and a user interface which allows a user to identify the TPMS sensor to be serviced, obtain a recommended fastener torque from a reference torque value database, measure the torque applied to the sensor fastener and alert the user when the reference torque has been reached or exceeded. In one example, the reference TPMS fastener torque values are stored in a memory device in the torque tool which are accessible through a plurality of graphic user interface menus on a display device.

A tire pressure monitoring system with a tire valve and a tire pressure monitoring unit includes a plastic housing, in which a pressure sensor for measuring the tire pressure and a transmitter for wirelessly transmitting tire pressure data are arranged. The tire pressure monitoring unit is attached to a stem of the tire valve and the stem comprises latching recesses, into which a latching element of the tire pressure monitoring unit engages. The latching element is realized integrally with a wall of the housing. A method for installing a tire pressure monitoring system on a rim is furthermore proposed.

A tire pressure monitoring system for a vehicle, for ascertaining tire-specific parameters, includes a valve body, at least one fastening element, and a tire inflation pressure sensor with a housing in which is accommodated a sensor for determining at least one tire-specific parameter and for wirelessly transmitting the at least one tire-specific parameter to a control unit on the vehicle. The housing has a fastening region, and the valve body includes a fastening section. The fastening section of the valve body is detachably engaged with the fastening region of the housing with the aid of a fastening element. The fastening element is made as one piece with the housing of the tire inflation pressure sensor from a thermoplastic plastic.

The invention relates to a wheel monitoring device (D) of the type comprising a housing (100) formed from a hollow core (101) containing different components including an electronic board (500) and a power supply battery (600) for said board (500), said housing (100) being positioned inside the tire and fixed to the internal portion (220) of the valve (200) fitted on the wheel, a polymer material fills in the free volume.

The device is remarkable in that the housing (100) is preformed so as to provide at least two different superposed parallel installation planes (P1, P2) on which the different components are distributed, said housing (100) being preformed with a lateral opening to enable the different components to slide laterally into their appropriate installation plane (P1, P2).

A modular TPMS sensor with an externally replaceable battery is disclosed. The valve stem facilitates battery replacement with a valve stem core designed to removably secure a battery within the valve stem and a sensor configured with an electrical connection designed to connect the sensor to power from the battery. The valve stem has an interior cavity configured to retain the valve stem core. The battery may be at least partially retained within the valve stem. The removable sensor may be configured to connect to an end of the valve stem distal from the valve stem core. The electrical connection may comprise a spring-loaded terminal configured to connect or disconnect the sensor and battery as the battery is inserted or removed from the valve stem through a valve stem end proximal to the valve stem core, permitting battery replacement without removing or deflating a tire configured with the sensor.

An apparatus for installing a valve in a hollow body. The apparatus includes a first member and a second member, wherein a part of lengths of the first and second members are complementary to each other to accommodate the first member circumferentially over the second member at the complementary part. The second member is configured to be inserted in a hole on an outer surface of the hollow body; advanced inside the hollow body while retaining the first member against the hole; and withdrawn from the hollow body while retaining the first member against the hole. The apparatus is configured to install the valve into the hollow body while the first member is retained against the hole, and wherein the first member is withdrawn upon the installation of the valve into the hollow body.

A tire state monitoring device that is able to stabilize fixing of a sensor unit is provided. A tire state monitoring device includes a tire valve mounted on a tire wheel, a cylindrical nut screwed onto the valve stem of the tire valve, and a sensor unit that detects a tire state and transmits a detection result to an external part. A nut insertion hole, into which the cylindrical nut is inserted, is formed in the sensor unit. An elastic ring member is fitted on the outer peripheral surface of the cylindrical nut and elastically deforms in the radial direction of the cylindrical nut while the cylindrical nut is kept inserted in the nut insertion hole. The sensor unit is held by the cylindrical nut by a resilient force of the elastic ring member.