The universal joint (200) is provided at the free end (154) of the arm assembly (152) in a wheel chock handling unit (150) for securing a wheel chock (100). The joint (200) includes a main plate (220), a first pivot coupling (208) defining a yaw axis (210), and an elongated link (260) attached to the first pivot coupling (208) and being pivotable about the yaw axis (210). The joint (200) also includes means for limiting axial pivot movements of the link (260) within a range of angular positions having a first angular end position and a second angular end position. The joint (200) can be configured and arranged so that the wheel chock (100) can self-align using only its own weight, thus the force of gravity, along the entire range of positions along a base plate (110), or a portion thereof.

The universal joint (200) is provided at the free end (154) of the arm assembly (152) in a wheel chock handling unit (150) for securing a wheel chock (100). The joint (200) includes a main plate (220), a first pivot coupling (208) defining a yaw axis (210), and an elongated link (260) attached to the first pivot coupling (208) and being pivotable about the yaw axis (210). The joint (200) also includes means for limiting axial pivot movements of the link (260) within a range of angular positions having a first angular end position and a second angular end position. The joint (200) can be configured and arranged so that the wheel chock (100) can self-align using only its own weight, thus the force of gravity, along the entire range of positions along a base plate (110), or a portion thereof.

Provided is a chocking device, including a frame, a plate, and a stop. The frame has an uppermost surface and a lowermost surface opposite the uppermost surface. The plate has a contact surface and is movable between a first position, wherein a portion of the contact surface is substantially coextensive with the uppermost surface of the frame, and a second position, wherein the portion of the contact surface is between the uppermost and lowermost surface of the frame. The stop is coupled to the frame and arranged in direct contact with the plate. The stop is rotatable such that movement of the plate from the first position to the second position rotates the stop from a first to a second stop position. The plate is movable such that the contact surface is substantially parallel when the plate is in the first and second positions.

Provided is a chocking device, including a frame, a plate, and a stop. The frame has an uppermost surface and a lowermost surface opposite the uppermost surface. The plate has a contact surface and is movable between a first position, wherein a portion of the contact surface is substantially coextensive with the uppermost surface of the frame, and a second position, wherein the portion of the contact surface is between the uppermost and lowermost surface of the frame. The stop is coupled to the frame and arranged in direct contact with the plate. The stop is rotatable such that movement of the plate from the first position to the second position rotates the stop from a first to a second stop position. The plate is movable such that the contact surface is substantially parallel when the plate is in the first and second positions.

A wheel immobilization device for preventing unintended movement of a wheel of a mobile object of a type having a wheel includes a rope body that includes a first end and a second end opposite the first end and that has an elongate, pliable, and flexible configuration, the rope body having a plurality of strands twisted together between the first and second ends. The immobilization includes a tail portion situated at the first end of the rope body, the tail portion having a linear configuration and a leader end. The immobilization device includes a retaining portion opposite the tail portion and situated at a second end of the rope body, the retaining portion including a loop that defines a head opening configured and operable to receive the tail portion therethrough.

A wheel immobilization device for preventing unintended movement of a wheel of a mobile object of a type having a wheel includes a rope body that includes a first end and a second end opposite the first end and that has an elongate, pliable, and flexible configuration, the rope body having a plurality of strands twisted together between the first and second ends. The immobilization includes a tail portion situated at the first end of the rope body, the tail portion having a linear configuration and a leader end. The immobilization device includes a retaining portion opposite the tail portion and situated at a second end of the rope body, the retaining portion including a loop that defines a head opening configured and operable to receive the tail portion therethrough.

A wheel chock system. In one aspect of the invention, an actuator is configured to move a pair of wheel chocks to an activated position in which motion of the wheel is prevented. A control unit controls the actuator and, based upon determination that a plurality of predefined conditions are met, the control unit may after having received an operator-initiated activation request, cause the actuator to move the wheel chocks from the inactivated position to the activated position. In another aspect of the invention, the actuator comprises a bi-directional motor and a gear mechanism, for moving the wheel chocks to the activated position. The invention also relates to a vehicle comprising a wheel chock system.

A wheel chock system. In one aspect of the invention, an actuator is configured to move a pair of wheel chocks to an activated position in which motion of the wheel is prevented. A control unit controls the actuator and, based upon determination that a plurality of predefined conditions are met, the control unit may after having received an operator-initiated activation request, cause the actuator to move the wheel chocks from the inactivated position to the activated position. In another aspect of the invention, the actuator comprises a bi-directional motor and a gear mechanism, for moving the wheel chocks to the activated position. The invention also relates to a vehicle comprising a wheel chock system.

This present invention relates to a missing wheel chock alert device that features a flag or indicator system on one side of the device that is easily visible to a vehicle operator through the side view mirror. The wheel chock alert device provides notification to an operator regarding a missing, lost, or unsecured wheel chock; and therefore, ensures that the vehicle operator does not leave the wheel chock(s) at jobsites and other areas. Additionally, the wheel chock alert device offers ease and convenience when identifying the position and status of the wheel chock, and ensures the wheel chock remains secure.

A tire brake comprising: a central shaft, a groove is formed in the middle of the surface of the central shaft, a hexagonal rotating block is embedded and arranged in the groove, and half screw rods are embedded both above and below the hexagonal rotating block through screw rod seats, one top end of the upper half screw rod is provided with an upper bearing bracket, one bottom end of the lower half screw rod is provided with a lower bearing bracket; the invention is scientific and reasonable, safe and convenient to use, in operation, the hexagonal rotating block can be directly rotated, and the hexagonal rotating block can be used to drive the half screw rod to rotate, thereby the screw rod seats driving the half screw rods to move up and down.