Patent ID: 9714040
Date: 2017-07-25
CPC Classifications: B60T,B61H,F16D

Claim:
1. A unit brake comprising a cylinder device with a spindle positioned in a casing in fluid communication with the atmosphere, a brake lever capable of swivel motion around a support axis through movement of the spindle in a spindle axial direction, and a brake shoe receptacle linked to and driven by the brake lever, comprising: a regular brake part equipped with a first piston, the first piston operating in a first pressure chamber and engaged by a first spring positioned in a region of the casing in fluid communication with the atmosphere and, with compressed fluid supplied to the first pressure chamber, the regular brake part moves in a direction of a brake force generated by the first piston in resistance to the first spring, a second piston operating in a second pressure chamber opposing the first pressure chamber, the second piston arranged between the first pressure chamber and the second pressure chamber, the second piston engaged by a second spring installed concentrically outside of the first pressure chamber, wherein the spindle is installed maintaining and penetrating a specified gap in a central part of the second piston, and wherein a spring brake part moves from a state of supplying compressed fluid to the second pressure chamber to an exhausting state where the second piston moves in the brake force direction by the second spring, a nut member rotatably threaded on the spindle, and a clutch mechanism, comprising: a clutch box housing the nut member, a bearing rotatably supporting the nut member relative to the clutch box, and a clutch positioned opposing the nut member, wherein the clutch mechanism allows rotation of the nut member versus the spindle when the regular brake part is driven, and fixes the nut member versus the spindle when the spring brake part is driven, wherein the clutch mechanism transitions from a first state where compressed air is supplied to the second pressure chamber to a second state where the compressed air is exhausted and the clutch is moved together with the second piston in the brake force direction versus the spindle by the added force of the second spring member to set a linked state where the clutch is mutually gripped with the nut member and linking the spindle and the second piston, wherein in the first state where compressed air is supplied to the second pressure chamber, the clutch is separated from the nut member and the nut member is freely rotatable and the clutch mechanism is set to a non-linked state where the link between the spindle and the second piston is released, wherein when the clutch mechanism is in the non-linked state, the second piston is biased towards the first piston by the compressed air in the second pressure chamber, wherein a clutch disengagement spring is positioned concentrically on an outer side of the nut member and applies force in a direction away from the nut member, wherein the nut member comprises an external gear facing a counter-braking direction that is a direction opposite to a brake force direction, wherein the clutch comprises an external gear facing the brake force direction, and wherein the external gear of the nut member meshes with the external gear of the clutch when the clutch mechanism is in the linked state.