A pressure gauge broadly comprising a conduit, a pressure indicator, and a tip assembly. The tip assembly extends from the distal end of the conduit and includes an inner shaft, an annular seat, and an outer tip. The inner shaft engages a valve stem core of a valve. The annular seat cradles and provides support to the outer tip. The outer tip forms a seal against a valve stem tube of the valve and has an outer surface having a semi-spherical, dome, or frusto-conical shape for ensuring that the seal is formed regardless of the angle at which the tip engages the valve.

A first tire pressure sensor module is configured to provide information related to a pressure of a tire of a vehicle and comprises a pressure sensor configured to determine the information related to the pressure of the tire. The pressure module further includes a controller configured to selectively operate the tire pressure sensor module in an active state and in an inactive state, wherein an energy consumption of the tire pressure sensor module is lower in the inactive state than in the active state. The controller is further configured to control an output of the information related to the pressure of the tire in the active state, and operate the tire pressure sensor module in the inactive state based on determining that information related to a velocity of the tire indicates a velocity above a threshold.

A tire condition detecting device includes a detecting section, which detects the condition of a tire, and a case, which accommodates the detecting section. The case has an accommodation portion, which accommodates the detecting section; and attachment portions. The attachment portions are configured to allow attachment of different types of tire valves.

An electronic unit that is intended to be mounted on the valve of a vehicle wheel fitted with a tire, incorporating electronics for monitoring at least one operating parameter of the wheel and a rechargeable power supply for supplying power to the electronics, including a device for charging the rechargeable power supply, the device for charging including: a movable element, at least a portion of which is magnetized, that is capable of being set in motion by an air flow for inflating the tire that passes through the valve and cooperating with a coil so as to produce variations in the magnetic field and electromagnetic induction; and a device for managing the charging of the rechargeable power supply.

A tire monitoring system electronic unit suitable for being mounted either on the tire inflation valve or on the internal surface of the tire. The system includes electronics for managing the electronic unit including sensors for measuring parameters of the tire, a microprocessor and a supply battery, and an antenna configured to be mountable on the management electronics; a way of securing the antenna and the electronic managing device to each other; the management electronics thus forming a common base capable of being used with an antenna that can be adapted to the intended location of the electronic unit, either on the tire inflation valve or on the internal surface of the tire.

A tire condition detecting device includes a case, a detecting section, which is accommodated in the case to detect a condition of a tire, an attachment portion provided in the case, an insertion hole, which is provided in the attachment portion and is configured to allow a snap-in valve to be inserted into the insertion hole, and a case-side fitting portion, which is provided in the attachment portion to be positioned outward of the insertion hole in a direction orthogonal to a central axis of the insertion hole, and is configured to be fitted to a clamp-in valve. The snap-in valve inserted into the insertion hole or the clamp-in valve fitted to the case-side fitting portion is attached to the case with a fixing tool.

A housing for an electronic module for an electronic unit for measuring operating parameters of the wheel of a vehicle which is able to collaborate with a snap-in type inflation valve, including a valve body made of an elastomer material, provided with a longitudinal axial bore and intended to extend through an orifice made in a rim, and a hollow tubular core made of a rigid material. A front face of the electronic module housing being connected to the inflation valve using a connecting device. The electronic module is configured to prevent the electronic module from pivoting about an axis defined by the housing connecting device.

A 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 sensor may be configured in a sensor body connected 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.

The present disclosure relates to a tire pressure sensor device, including a housing mounted with a sensor body, an air valve, and a connecting portion extending from the housing for mounting the air valve. The connecting portion is provided with a first groove in a shape of a spherical cap. A bottom surface of the first groove is provided with a strip-shaped through-hole penetrating through a bottom portion of the first groove. A plastic plug is detachably mounted on and mating with the first groove, and a top portion of the plastic plug is provided with a second groove. The plastic plug is further provided with a circular through-hole penetrating through a bottom surface of the second groove. The air valve is fixedly connected to the housing by screws passing through the strip-shaped through-hole, or the strip-shaped through-hole and the circular through-hole.

Provided is a tire pressure detection system that can be operated stably for a long period of time by using, as a power source, a secondary battery having little characteristic deterioration under a high temperature environment, e.g. in a situation in which the battery is maintained for a long period of time in a fully charged state under a high temperature environment, while having excellent low temperature characteristics. A tire pressure detection system 1 includes: an air pressure detection device 10 that detects an air pressure inside a tire; and a secondary battery 20 that supplies power to the air pressure detection device 10. The secondary battery 20 is a lithium secondary battery that includes a negative electrode containing a lithium alloy as an active material and a positive electrode.