The disclosure relates to a medical imaging supply transport cart having enhanced safety features and a process implementing the same. The medical imaging supply transport cart includes a support surface configured to support medical imaging supplies, the support surface further configured to support a support mechanism, and the support mechanism further configured to support the medical imaging supplies. The support mechanism further configured to rigidly hold the medical imaging supplies with a first holding mechanism, the medical imaging supplies configured to store at least one dose of a nuclear medicine, a plurality of wheels arranged below the support surface, at least one door configured to enclose the medical imaging supplies, and a handle configured to be grasped by a user to guide the medical imaging supply transport cart.

An assembly of a first and second child transport apparatus is disclosed. Each apparatus may include: a frame having a frame base, at least one wheel, and a handle; at least one brake and a brake rod, wherein the brake rod is attached to the frame, and wherein the at least one brake actionable upon the wheel when the brake rod is actuated; a carriage pivotably attached to the frame; and a foldable backrest pivotably attached to a base of the carriage, wherein, in a nested position, the foldable backrest of the first apparatus is folded down and the carriage of the second apparatus is positioned partially within the carriage of the first apparatus such that the carriage of the second apparatus is disposed partially over the foldable backrest of the first apparatus; and the brake rod of the first apparatus is released by the handle of the second apparatus.

A working machine has a frame, a ground engaging propulsion system, a drive arrangement for providing motive power to the ground engaging propulsion system, an operator platform pivotally connected to the frame and moveable between a deployed position for supporting an operator thereon and a stowed position; and a sensor arrangement configured to sense when an external force is applied to the operator platform when said operator platform is in the deployed position. The machine prevents movement of the ground engaging propulsion system when the sensor arrangement does not sense an external force applied to the operator platform when said operator platform is in the deployed position.

The disclosure relates to a medical imaging supply transport cart having enhanced safety features and a process implementing the same. The medical imaging supply transport cart includes a support surface configured to support medical imaging supplies, the support surface further configured to support a support mechanism, and the support mechanism further configured to support the medical imaging supplies. The support mechanism further configured to rigidly hold the medical imaging supplies with a first holding mechanism, the medical imaging supplies configured to store at least one dose of a nuclear medicine, a plurality of wheels arranged below the support surface, at least one door configured to enclose the medical imaging supplies, and a handle configured to be grasped by a user to guide the medical imaging supply transport cart.

A hand cart capable of satisfying walking stabilization and facilitation of carrying articles according to a movement mode includes a control section operable, based on a rotational angle of a wheel section, to calculate a movement distance and a traveling direction, and, according to the traveling direction and the inclination angle, to execute an assist control of causing a wheel driving section to generate a driving torque for assist force or braking torque for braking force, wherein the control section is operable, based on a movement distance and the inclination angle, to calculate an angular change rate of the inclination angle, and, when a contact with a grip member is detected, and the angular change rate is equal to or less than a given threshold, to execute the assist control.

A handcart (includes a main body unit, a pair of main wheels provided to the main body unit, a grip unit that is provided to the main body unit and gripped by a user, a grip switch that detects whether the user is gripping the grip unit, a tilt angle sensor, a camera, an acceleration sensor, or other devices that detect the state of the cart body, and a wheel lock mechanism that locks the main wheels if the grip switch does not detect user's gripping of the grip unit and if the cart body is in a predetermined state, for example, if it is detected by the acceleration sensor or other devices that the cart body is moving. This configuration provides a handcart that locks the wheels without necessarily compromising usability.

A hand cart capable of satisfying walking stabilization and facilitation of carrying articles according to a movement mode includes a control section operable, based on a rotational angle of a wheel section, to calculate a movement distance and a traveling direction, and, according to the traveling direction and the inclination angle, to execute an assist control of causing a wheel driving section to generate a driving torque for assist force or braking torque for braking force, wherein the control section is operable, based on a movement distance and the inclination angle, to calculate an angular change rate of the inclination angle, and, when a contact with a grip member is detected, and the angular change rate is equal to or less than a given threshold, to execute the assist control.

An Urban Intermodal Freight System is capable of transporting large volumes and tonnage of freight by containerized or other means on a mass transit rail system. It captures excess capacity in the existing mass transit rail infrastructure to move packages, parcels, and freight by using miniaturized intermodal cargo containers that are designed to integrate seamlessly with the existing transit infrastructure, while displacing delivery trucks from increasingly crowded city streets. By enabling inbound trucks to transfer their cargo to the Urban Intermodal Freight System at a city's outskirts, freight is delivered without trucks entering congested downtown areas, greatly alleviating traffic congestion, delays, greenhouse gas emissions and other negative environmental impacts. The Linear Loading Dock and Conveyor System may have other useful applications, for example to access a facility, building or vehicle, or in other circumstances where off street truck parking or loading docks are not available.

The disclosure relates to a medical imaging supply transport cart having enhanced safety features and a process implementing the same. The medical imaging supply transport cart includes a support surface configured to support medical imaging supplies, the support surface further configured to support a support mechanism, and the support mechanism further configured to support the medical imaging supplies. The support mechanism further configured to rigidly hold the medical imaging supplies with a first holding mechanism, the medical imaging supplies configured to store at least one dose of a nuclear medicine, a plurality of wheels arranged below the support surface, at least one door configured to enclose the medical imaging supplies, and a handle configured to be grasped by a user to guide the medical imaging supply transport cart.

A control arm lock assembly for a material handling vehicle can include an inner sleeve defining a central opening, an actuator, a stem, selectively actuated via the actuator, arranged within the opening, a bushing arranged within the central opening between the stem and an inner surface of the inner sleeve, and a resilient locking member arranged within the central opening. In one example, the resilient locking member is axially constrained between a head of the stem and the bushing. In one example, actuation of the stem via the actuator compresses the resilient locking member between the head and the bushing. In one example, compression of the resilient locking member causes the resilient locking member to engage the inner surface of the inner sleeve to lock the stem to the inner sleeve.