A smart wheel chock includes a chock body including a ground engaging surface and a wheel engaging surface for engaging a wheel of a vehicle; a processor housed within the chock body; a position tracking sensor housed within the chock body, wherein the position tracking sensor is configured to detect a location of the wheel chock; a wireless communication module in communication with the processor and configured to transmit the location of the wheel chock; a power system configured to supply power to the processor and wireless communication module; and a visual indicator on the chock body, wherein the visual indicator is configured to be visible while the chock body is engaged with the wheel, and wherein the visual indicator includes a unique identifier for the smart wheel chock.

A smart wheel chock includes a chock body including a ground engaging surface and a wheel engaging surface for engaging a wheel of a vehicle; a processor housed within the chock body; a position tracking sensor housed within the chock body, wherein the position tracking sensor is configured to detect a location of the wheel chock; a wireless communication module in communication with the processor and configured to transmit the location of the wheel chock; a power system configured to supply power to the processor and wireless communication module; and a visual indicator on the chock body, wherein the visual indicator is configured to be visible while the chock body is engaged with the wheel, and wherein the visual indicator includes a unique identifier for the smart wheel chock.

The invention relates to a wheel chock for blocking a stationary wheel having a bottom surface (1) for resting on a floor and a wheel surface (2) for engagement with the wheel. The wheel surface (2) is provided for blocking the wheel angled to the bottom surface (1). The bottom surface (1) and wheel surface (2) are connected to each other via a hinge and designed to be foldable. A locking device is arranged movably on the bottom surface (1) and/or the wheel surface (2) and, in a locking position, locks the bottom surface (1) and wheel surface (2) in an unfolded, angled state.

The invention relates to a wheel chock for blocking a stationary wheel having a bottom surface (1) for resting on a floor and a wheel surface (2) for engagement with the wheel. The wheel surface (2) is provided for blocking the wheel angled to the bottom surface (1). The bottom surface (1) and wheel surface (2) are connected to each other via a hinge and designed to be foldable. A locking device is arranged movably on the bottom surface (1) and/or the wheel surface (2) and, in a locking position, locks the bottom surface (1) and wheel surface (2) in an unfolded, angled state.

A wheel chock with a magnet actuated to lock and unlock with an underlying steel plate is anchored to the adjacent pavement. A proximity sensor senses the presence or absence of the underlying steel plate to ensure proper placement and magnetic engagement. Wireless transmission/receiver communications between the wheel chock, magnet, proximity sensor and a loading dock operations console provides remote sensing and control of the locking and unlocking operation. An electro magnet or a manually actuated permanent magnet can be used. The electromagnet can receive electric power from a battery or can be hard wired to the adjacent loading dock. The permanent magnet option may include wireless communication and a battery to be physically independent of the loading dock.

Shoring blocks used as pedestal shoring under the cargo loading ramps of cargo planes and also used as sleeper shoring to support the weight of rolling stock loaded into cargo aircraft provide stackable foam structures of various and applicable shapes and sizes designed for particular cargo aircraft, each foam structure alternatively provided with a protective coating or fabric, reinforced with a stiffener or having fabric webbing integrated within or connecting more than one foam structure.

Shoring blocks used as pedestal shoring under the cargo loading ramps of cargo planes and also used as sleeper shoring to support the weight of rolling stock loaded into cargo aircraft provide stackable foam structures of various and applicable shapes and sizes designed for particular cargo aircraft, each foam structure alternatively provided with a protective coating or fabric, reinforced with a stiffener or having fabric webbing integrated within or connecting more than one foam structure.

The wheel chock is part of a wheel chock restraint system that also includes a base plate to prevent a parked vehicle from moving away in an unauthorized or accidental manner in a departure direction. The wheel chock includes a main body having a bottom base portion and a tire-engaging bulge. It also includes a tire deformation cavity, made within the main body on the tire-facing side. Teeth are provided underneath the bottom base portion of the wheel chock to engage at least one of the corresponding teeth provided on the base plate in a latched engagement. The wheel chock has an improved resistance to rollover and tipping when the wheel is pressed forcefully against the wheel chock.

The wheel chock is part of a wheel chock restraint system that also includes a base plate to prevent a parked vehicle from moving away in an unauthorized or accidental manner in a departure direction. The wheel chock includes a main body having a bottom base portion and a tire-engaging bulge. It also includes a tire deformation cavity, made within the main body on the tire-facing side. Teeth are provided underneath the bottom base portion of the wheel chock to engage at least one of the corresponding teeth provided on the base plate in a latched engagement. The wheel chock has an improved resistance to rollover and tipping when the wheel is pressed forcefully against the wheel chock.

Disclosed herein are aircraft and landing gear systems configured to fix an aircraft to the ground. For example, the aircraft and aircraft systems configured for ground manipulation. In one aspect, an aircraft with an arm and end-effector may be fixed a ground surface to facilitate ground-based robotic manipulation tasks.