A brake assembly has a lever configured to press a knee against a pushrod of a piston of a master cylinder assembly. The knee is configured to receive removable inserts that allow a user to modify the angle at which the lever activates the master cylinder assembly. The master cylinder assembly can include protrusions on the outer surface of the cylinder to protect the cylinder from impact damage.

A brake assembly has a lever configured to press a knee against a pushrod of a piston of a master cylinder assembly. The knee is configured to receive removable inserts that allow a user to modify the angle at which the lever activates the master cylinder assembly. The master cylinder assembly can include protrusions on the outer surface of the cylinder to protect the cylinder from impact damage.

An emergency stop apparatus includes a detecting device for detecting an obstacle intruding into a predetermined area around a working machine, an actuator fixed to a vehicle body of the construction machine or a member attached to the vehicle body, a coupling member for coupling an output shaft of the actuator with a brake pedal, and an electronic control unit. When the obstacle is detected by the detecting device, the electronic control unit actuates the actuator to move the brake pedal in an actuation direction of the service brake.

A brake pedal structure for a saddled vehicle is configured to include a master cylinder supplying hydraulic pressure to a brake caliper of the saddled vehicle and a brake pedal connected to the master cylinder through a connection mechanism. The connection mechanism includes a holder, an arm, and a connection pin. The holder presses the master cylinder, the arm is fixed to the brake pedal, and the connection pin pivotally supports the holder and the arm so as to be swingable against each other. The connection pin includes a small diameter shaft, a large diameter shaft, and an arm support shaft. The small diameter shaft and the large diameter shaft are pivotally supported by the holder and have a circular cross section. The arm support shaft is pivotally supported by the arm and has a circular cross section. The arm support shaft is eccentric with respect to the small diameter shaft and the large diameter shaft.

A brake pedal structure for a saddled vehicle is configured to include a master cylinder supplying hydraulic pressure to a brake caliper of the saddled vehicle and a brake pedal connected to the master cylinder through a connection mechanism. The connection mechanism includes a holder, an arm, and a connection pin. The holder presses the master cylinder, the arm is fixed to the brake pedal, and the connection pin pivotally supports the holder and the arm so as to be swingable against each other. The connection pin includes a small diameter shaft, a large diameter shaft, and an arm support shaft. The small diameter shaft and the large diameter shaft are pivotally supported by the holder and have a circular cross section. The arm support shaft is pivotally supported by the arm and has a circular cross section. The arm support shaft is eccentric with respect to the small diameter shaft and the large diameter shaft.

There is provided a booster of a braking force 1 which drives a master cylinder by boosting an operation force of a brake pedal 100 in accordance with a movement amount of an input member 4 that reciprocates by an operation of the brake pedal 100, including: the input member 4 of which one end is linked to the brake pedal 100, which is inserted and fitted to the inside of a control housing 3 installed in a housing 2, and which is provided to be freely relatively slidable in an axial direction; and damping members 22, 31, and 32 which are provided at a part at which the input member 4 and the housing 2 abut against each other, or at a position which can be linked or abut against a part of the input member 4, in which, when the input member 4 moves to return when releasing an operation of the brake pedal 100, when the input member 4 abuts against the housing 2, the damping members 22, 31, and 32 perform an impact absorbing and damping action.

In order to offer an improved brake device without vacuum booster, in the case of which brake device the zero point of the cylinder piston remains as far as possible permanently within defined narrow tolerances and at the same time the impact noise is reliably reduced, it is proposed that the stop disk is elastically reversibly compressible in an axial direction over a defined compression travel and has the compression travel delimited, the delimitation being defined in a travel-controlled manner.

In order to offer an improved brake device without vacuum booster, in the case of which brake device the zero point of the cylinder piston remains as far as possible permanently within defined narrow tolerances and at the same time the impact noise is reliably reduced, it is proposed that the stop disk is elastically reversibly compressible in an axial direction over a defined compression travel and has the compression travel delimited, the delimitation being defined in a travel-controlled manner.

The actuator device for a hydraulic actuation system for a brake/clutch for a motorcycle is described. The actuator device may have a support structure associable with a handlebar of the motorcycle. The actuator device may also have an actuation assembly having a push rod operatively connectable to at least one braking device. The actuator device may also have an actuation lever connected to the support structure so as to be rotatable about an actuation axis, where the actuation lever is provided with a pusher adapted to interface with the push rod. The actuator device may also have an adjustment device adapted to modify both the angular position, in a rest condition, of the pusher and of the actuation lever with respect to the handlebar and to modify a pitch between the actuation axis of the actuation lever and a contact and thrust point of the pusher on the push rod.

A system in which the device connecting the brake pedal to the brake actuator includes a control rod and a thrust rod guided in a cylinder, connected to the rod by a ball joint and returned by a spring. The end of the rod comprises a spherical cap having a spherical front bearing surface and a flat rear surface, perpendicular to the axis of the rod. A centering sleeve freely surrounding the control rod presses with its front edge against the rear face of the cap, pushed by a centering spring bearing on the thrust rod and on the centering sleeve to tilt the spherical cap and the rod toward the axis of the thrust rod.