A combined transporter and a master transporter thereof are provided. The combined transporter includes a master transporter and a sub-transporter. The master transporter includes: a vehicle transferring cart, including a bottom support and two side supports connected to two opposite sides of the bottom support; an elevating assembly, configured on the bottom support and between the two side supports, wherein the elevating assembly is slidably connected to the two side supports, and the elevating assembly is configured to elevate up and down along a direction perpendicular to a main surface of the bottom support and limited by the two side supports. The sub-transporter is configured to move out of or move into the elevating assembly along a passage defined by the two side supports, and the sub-transporter is configured to transfer a vehicle between the elevating assembly and a parking spot.

Systems, apparatus and methods for a motor vehicle parking robot. The parking robot includes a pair of wheel support arms and a retracted wheel retention arm configured laterally from the outside of the parking robot and configured to lift a wheel of a vehicle by extending the pair of wheel support arms and affix the wheel in place on the parking robot by extending the wheel retention arms.

Systems, apparatus and methods for a motor vehicle parking robot. The parking robot includes a pair of wheel support arms and a retracted wheel retention arm configured laterally from the outside of the parking robot and configured to lift a wheel of a vehicle by extending the pair of wheel support arms and affix the wheel in place on the parking robot by extending the wheel retention arms.

A vehicle conveyance control apparatus for controlling a plurality of conveyance devices, includes a processor and a memory coupled to the processor. Each of the plurality of conveyance devices is configured to lift each tire of a vehicle to convey the vehicle from a predetermined area of a parking lot to a parking space. The processor is configured to perform: acquiring vehicle information including tire position information of each tire of the vehicle detected in the predetermined area; selecting conveyance devices to convey the vehicle from among the plurality of conveyance devices different in conveyance capacity for lifting each tire of the vehicle to convey the vehicle based on the tire position information of the vehicle acquired in the acquiring; and instructing the conveyance devices selected in the selecting to convey the vehicle from the predetermined area to the parking space.

The present invention can provide an intelligent vehicle transport robot for a single-level parking lot, wherein: parking lines for indicating parking locations of respective vehicles are marked on a parking lot formed at a single level; the parking lines are marked in a checkerboard pattern so as to exclude drive aisles for vehicle movements and thus increase the number of vehicles that can be accommodated in parking spaces; and a vehicle transport robot (10) is provided in the parking lot, which performs vehicle parking and retrieval by moving a vehicle above parked vehicles, whereby due to exclusion of drive aisles, the number of vehicles that can be accommodated in parking spaces is increased as compared to a conventional parking lot having the same area, and thus the parking efficiency of the parking lot can be improved.

The present invention can provide an intelligent vehicle transport robot for a single-level parking lot, wherein: parking lines for indicating parking locations of respective vehicles are marked on a parking lot formed at a single level; the parking lines are marked in a checkerboard pattern so as to exclude drive aisles for vehicle movements and thus increase the number of vehicles that can be accommodated in parking spaces; and a vehicle transport robot (10) is provided in the parking lot, which performs vehicle parking and retrieval by moving a vehicle above parked vehicles, whereby due to exclusion of drive aisles, the number of vehicles that can be accommodated in parking spaces is increased as compared to a conventional parking lot having the same area, and thus the parking efficiency of the parking lot can be improved.

A vehicle transport apparatus is formed by a first robot and a second robot that enter underneath a vehicle, lift up wheels of the vehicle, and travel. The first robot and the second robot each include a distance sensor that detects a distance between the corresponding robot and an object near the corresponding robot, and a robot computing section that controls a travel operation and a loading operation of the corresponding robot. When the vehicle is to be lowered in a parking region, the robot computing section adjusts a parking position of the vehicle based on information detected by the distance sensor.

A vehicle transport apparatus is formed by a first robot and a second robot that enter underneath a vehicle, lift up wheels of the vehicle, and travel. The first robot and the second robot each include omnidirectional wheels and each further include a right lifting arm and a left lifting arm that are freely rotatably movable between storage positions (right storage position and left storage position) where tips thereof are pointed toward a center of a body in a width direction and expanded positions (right expanded position and left expanded position) where the tips thereof are pointed toward the outside of the body in the width direction.

The exemplary embodiments of the invention relate to methods for operating a transport system, which have a large number of transport mechanism and means. The invention further relates to a corresponding transport system.

The exemplary embodiments of the invention relate to methods for operating a transport system, which have a large number of transport mechanism and means. The invention further relates to a corresponding transport system.