A track system for a rubber tracked work vehicle comprises temperature sensor and an antenna attached to a track wheel. The antenna is connected to the temperature sensor to transmit to a receiver a temperature signal generated by the temperature sensor. A work vehicle comprising the track system and a temperature measuring method are also disclosed.

The disclosure relates to a method for monitoring a temperature of a brake system of a vehicle, the method comprising determining a dynamic warning temperature profile for the brake system, wherein the dynamic warning temperature profile is based on a warning temperature value of the brake system and a threshold value indicative of the number of times the temperature of the brake system exceeds the warning temperature value; monitoring the number of times when the temperature of the brake system exceeds the warning temperature value of the dynamic warning temperature profile; and when the number of times the temperature of the brake system exceeds the threshold value, adjusting the warning temperature level of the dynamic warning temperature profile to a reduced warning temperature level.

Various embodiments of the present disclosure are directed to measuring rims and methods for measuring a brake abrasion of a wheel brake having a measuring rim. In one embodiment, consistent with the present disclosure, a measuring rim is disclosed including a circumferential tire support surface connected on one side to an end wall and on an opposite side to a seal to form an outwardly closed inner space, and a rotary feed-through provided on a central region of the end wall, the rotary feed-through configured to supply a gaseous medium to the inner space of the measuring rim and remove it therefrom.

The present disclosure relates to an electronic parking brake system including a motor actuator operated by an electric motor, wherein the electronic parking brake system further includes a motor driving circuit provided to drive the electric motor, and a controller configured to determine a temperature of the electric motor from a temperature of a brake disc during a parking operation, determine a target current based on the determined motor temperature, and control the electric motor depending on the determined target current.

A system, and associated method, for reducing oxidation of a friction disk may include a braking assembly comprising the friction disk and a conduit coupled to the braking assembly, with the conduit being in selectable fluid providing communication with the braking assembly. That is, the conduit may be configured to deliver inert fluid to the braking assembly, thus reducing the concentration of oxygen in the vicinity of the friction disks and thus reducing/mitigating oxidation of the friction disks.

Apparatuses, systems, and methods apply, with a fan, a braking force to a vehicle that includes an axle. The fan is rotated at a first rotational speed based on a rotation of the axle that rotates at a second rotational speed. The first rotational speed is different from the second rotational speed. The fan applies the braking force when the fan rotates at the first rotational speed.

A brake device, configured to be installed directly on a driving axle or through a hub, wherein said device includes a first brake disc joined to the axle sharing rotary motion, a first container disc and a second container disc configured to be moved in the axial direction of said axle. The container discs are positioned on each side of the brake disc, such that both are configured to be moved in the axial direction towards the linings of the first brake disc and to exert a pushing pressure thereon, producing the braking of the brake disc and, therefore, of the driving axle whereon it is assembled. Furthermore, the container discs comprise an inner circuit configured to accommodate the passage of a coolant configured to cool them.

A pad axle for a brake caliper comprises an axle body and a support body. The axle body includes a first mounting part and a second mounting part and extends along a longitudinal axis between the first mounting part and the second mounting part. Both of the first mounting part and the second mounting part are configured to be coupled to a caliper body of the brake caliper. The support body is a different member from the axle body and is attached to the axle body to movably support a brake pad of the brake caliper relative to the caliper body. The support body is provided between the first mounting part and the second mounting part of the axle body. The support body is made of a non-metallic material.

Disclosed is a brake system for a railroad vehicle, including a parking brake provided with a piston and having a first configuration in which the piston is in a working position in which it acts on a lining support and applies a predetermined force to a brake disc; a second configuration in which the piston is in a rest position in which it does not act on the support and does not apply any force to the disc; and a third configuration in which, when the vehicle is not at a standstill and the ambient temperature in the environment of the disc is greater than a threshold value, it forces the piston to move towards a trip position different from its working and rest positions, in order to limit or cancel the force applied to the disc.

A system and method includes upgrading a metamodel for friction coefficient prediction of a brake, in which the metamodel for friction coefficient prediction may be constructed using various derivative parameters relating to the speed, temperature and pressure of a brake disc in addition to basic parameters, such as the speed, temperature and pressure of the brake disc, to greatly improve performance and accuracy in friction coefficient prediction using the metamodel for friction coefficient prediction and to improve accuracy in evaluation of the driving performance of a vehicle through an increase in accuracy of determination of brake torque.