Patent ID: 11891029
Assignee: HL MANDO CORPORATION
Field: Transport (Mechanical engineering)
Classification: CPC B  F | IPC B  F

Claim 0:
1. A brake system for a vehicle, comprising:
an actuation unit for actuating wheel brakes of the vehicle in a normal operating mode of the brake system; and
a brake cylinder for pressurizing the wheel brakes of the vehicle in an emergency operating mode of the brake system, the brake cylinder comprising:
a brake cylinder housing;
a push rod being displaceable within the brake cylinder housing by operation of a brake pedal;
a piston movably arranged within the brake cylinder housing, the piston having a first surface and a second surface opposite the first surface;
a hydraulic chamber formed within the brake cylinder housing between the first surface of the piston and an inner surface of the brake cylinder housing, wherein the hydraulic chamber is configured for being selectively fluidly connected with the wheel brakes;
an elastic simulator element arranged between the second surface of the piston and the push rod for pedal feel simulation; and
a locking element configured to selectively mechanically couple the push rod with the piston to provide a rigid connection between the push rod and the piston during the emergency operating mode,
wherein the locking element is pivotally connected with the piston at a joint, and includes a first portion on the left side of the joint extending towards the hydraulic chamber and a second portion on the right side of the joint extending towards the push rod,
wherein the brake cylinder further comprises a spring mechanism configured to force the first portion to move outward and the second portion to move inward, thereby causing a locking motion of the locking element that brings the locking element into contact with the push rod,
wherein the brake cylinder housing comprises a simulator chamber in which the locking element is connected to the piston, wherein the simulator chamber comprises a larger diameter portion and a smaller diameter portion, wherein the locking element is connected with the piston and is in contact with an inner wall of the simulator chamber, wherein the locking element is configured such that a transition from the smaller diameter portion to the larger diameter portion upon a motion of the piston brings the locking element into contact with the push rod to mechanically couple the push rod with the piston, and
wherein the spring mechanism is configured to force the first portion of the locking element to move outward upon transition from the smaller diameter portion of the simulator chamber to the larger diameter portion.