A handbrake structure includes a fixing base, a linking member and a brake handle. The fixing base is located on a handle of a moving apparatus. The linking member is located on the fixing base, wherein a first portion of the linking member is connected to a first brake wire, and a second portion of the linking member has a first limit part. The brake handle is located on the linking member, wherein a first portion of the brake handle is connected to a second brake wire. When the brake handle is rotated in a first direction, the brake handle pushes the first limit part to rotate the linking member, and the linking member pulls the first brake wire. When the brake handle is rotated in a second direction different from the first direction, the brake handle pulls the second brake wire.

A wheeled carrying apparatus includes a frame structure including a standing frame, a wheel mount carrying a wheel and pivotally connected with the standing frame, the wheel being rotatable relative to the first wheel mount about a wheel axis, a locking assembly including a wheel mount latch movably connected with the standing frame, the wheel mount latch being engaged with the wheel mount to rotationally lock the first wheel mount with respect to the standing frame, and disengaged from the wheel mount to unlock the wheel mount for rotation of the wheel mount to change an orientation of the wheel axis, an actuating assembly coupled to the wheel mount latch and including one or more linking part, and a release mechanism including an operating part provided on the frame structure that is operable to cause the actuating assembly to pull the wheel mount latch to disengage from the wheel mount.

A child transport carrier includes a handle bar and a rotatable brake actuator disposed around the handle bar. The rotatable brake actuator includes a first portion having a first radius of curvature and a second portion having a second radius of curvature. The first radius of curvature is less than the second radius of curvature. Rotating the rotatable brake actuator around the handle bar activates a first wheel brake.

The present disclosure provides a brake mechanism of a cart, a brake mechanism, a pedal structure, a drive member of a wheel structure, and a cart, wherein the drive member is arranged in the brake mechanism to be movable, wherein the drive member has a guiding side face, and the guiding side face is provided with a guiding slot including a stop slot; wherein the brake mechanism is also provided with a braking member, a stop end of the braking member is arranged to move in the guiding slot; wherein the drive member is provided with an anti-damage device, and the anti-damage device is arranged such that when a user tends to move the drive member in an incorrect direction, the anti-damage device is able to elastically obstruct or prevent the stop end from moving away from the stop slot in the first direction.

The disclosure provides a baby carriage brake mechanism and a baby carriage. The baby carriage brake mechanism includes a frame, a brake drive assembly, linkage assemblies, brake locks and wheels. The brake drive assembly is disposed on the frame. The linkage assemblies are respectively slidably disposed on the frame on both of left and right sides. Both ends of the brake drive assembly are respectively in abutting connection with the two linkage assemblies. The linkage assemblies are coupled to the brake locks. Two wheels are respectively pivotally disposed at both sides of the frame. By driving the brake drive assembly to push the linkage assemblies to act with the brake locks, the brake locks on both sides are engaged with the wheels, thereby locking the wheels on both sides. Therefore, the baby carriage brake mechanism of the disclosure may brake wheels on both sides simultaneously with simple operation.

A locking device has two locking mechanisms, a connecting mechanism, and a pedal. Each locking mechanism has a wheel base, a cap, a recoil device, and a locking assembly. The wheel base has a mounting hole having multiple guiding ribs. The recoil device has a recoil member and a recoil spring. The locking assembly is mounted in the wheel base and has a pushing rod, a pushed rod, and a pushing spring. The pushing rod has a ratcheted end. The pushed rod is selectively engaged with and disengaged from the guiding ribs and has a ratcheted end selectively engaged with and disengaged from the ratcheted end of the pushing rod. The pedal is mounted securely on the cap of one of the two locking mechanisms that is defined as a driving locking mechanism.

A child transport carrier includes a handle bar and a rotatable brake actuator disposed along a lengthwise axis of the handle bar. A first cable having a first end and a second end is coupled to the rotatable brake actuator. A first wheel brake of a first wheel is coupled to the first end of the first cable. Rotating the rotatable brake actuator around the lengthwise axis of the handle bar activates the first wheel brake.

A stroller including a pair of wheels and a cross bar extending therebetween. A pedal is coupled to the cross bar, and is transitional relative thereto between locked and unlocked configurations. A pair of braking pins is operatively coupled to the pedal. Each braking pin is transitional relative to a corresponding wheel between locked and unlocked configurations. Each braking pin is engaged with the corresponding wheel when the braking pin is in the locked configuration, and each braking pin is disengaged with the corresponding wheel when in the unlocked configuration. The braking pins are coupled to the pedal such that movement of the pedal from the unlocked configuration to the locked configuration causes the braking pins to transition to their respective locked configurations, and movement of the pedal from the locked configuration to the unlocked configuration causes the braking pins to transition to their respective unlocked configurations.

A locking device has two locking mechanisms, a connecting mechanism, and a pedal. Each locking mechanism has a wheel base, a cap, a recoil device, and a locking assembly. The wheel base has a mounting hole having multiple guiding ribs. The recoil device has a recoil member and a recoil spring. The locking assembly is mounted in the wheel base and has a pushing rod, a pushed rod, and a pushing spring. The pushing rod has a ratcheted end. The pushed rod is selectively engaged with and disengaged from the guiding ribs and has a ratcheted end selectively engaged with and disengaged from the ratcheted end of the pushing rod. The pedal is mounted securely on the cap of one of the two locking mechanisms that is defined as a driving locking mechanism.

A wheel locking mechanism, suitable for locking a wheel of a pushchair, the mechanism comprising: a rotatable member, adapted to be mounted on the hub of a wheel, whereby the rotatable member is co-rotatable with, and by rotation of, the wheel, the rotatable member comprising a locking surface, and a non-rotatable member, comprising a locking pin adapted to selectively cooperate with the locking surface of the rotatable member, whereby the relative positions of the rotatable and non-rotatable members are lockable. Also disclosed is a pushchair comprising a chassis having a rear axle, at each end of which a wheel is mountable, wherein each end of the rear axle is provided with such a wheel locking mechanism.