A transverse elevator system having generally horizontal and generally vertical components in a building with horizontal pathways guiding first passenger vehicles on each floor that connect to a plurality of vertical pathways guiding second passenger vehicles intersecting the horizontal pathways at stops at the points of intersection, wherein passenger transfer from horizontal to vertical movement is achieved by locking the first vehicles to the second vehicles with passenger chutes defining panels that extend from the vertical pathways and lock the first vehicles to the vertical pathways. In a second embodiment, passengers are carried in a separate enclosed CAPULSEs that shift from the first vehicles to the second vehicles obviating the need for complex horizontal to vertical drive transfer mechanisms.

A transverse elevator system having generally horizontal and generally vertical components in a building with horizontal pathways guiding first passenger vehicles on each floor that connect to a plurality of vertical pathways guiding second passenger vehicles intersecting the horizontal pathways at stops at the points of intersection, wherein passenger transfer from horizontal to vertical movement is achieved by locking the first vehicles to the second vehicles with passenger chutes defining panels that extend from the vertical pathways and lock the first vehicles to the vertical pathways. In a second embodiment, passengers are carried in a separate enclosed CAPULSEs that shift from the first vehicles to the second vehicles obviating the need for complex horizontal to vertical drive transfer mechanisms.

The passenger and vehicle elevator system includes a plurality of elevator cars arrayed substantially equidistantly and equiangularly from a central shaft of the building (B). Each elevator car (12, 14, 16) includes a housing and at least one door (54). The housing has a floor, a ceiling, and at least one sidewall. A linearly translating platform (50) is mounted on the floor of each of the housings. The linearly translating platform (50) is adapted for automatically carrying the vehicle (V) and the at least one passenger through the at least one door (54). Further, the vehicle (V) may be rotated within the housing by driven rotation of the platform (50) or the floor, allowing for selective angular positioning of the vehicle (V) with respect to the housing. The elevator car (12) ascends and descends within a corresponding elevator shaft in a manner similar to that of a conventional elevator.

Parking systems and methods for vehicles, such as recreational vehicles (RVs), buses, trucks, automobiles, and the like, and road-configured or road-transportable accommodation spaces. The systems and methods offer enhanced ease of parking, increased parking density, and additional amenities that may find use in recreational, service, and work locations. The systems include a parking loop having a plurality of parking pads radially spaced about a central region, and a turntable positioned within the central region, wherein the turntable includes a road portion that provides admission from an access road to each of the plurality of parking pads when aligned therewith. Each parking pad may include an accommodation area, and the parking loop may further include a community space positioned over the central area and accessible via at least a loft portion of each of the accommodation areas.

Embodiments include a vehicle turntable comprising a central hub communicatively coupled to a control unit for receiving control signals; a plurality of wedge-shaped panels radially coupled to the central hub so as to form a circular surface; a plurality of wheels coupled to a number of the plurality of panels; and at least one motor configured to drive a corresponding one of the plurality of wheels and to receive the control signals from the central hub. Embodiments also include a system comprising a first turntable hub configured to control operation of a first turntable; and a control unit communicatively coupled to the first turntable hub to provide control signals to the first turntable hub.

The passenger and vehicle elevator system includes a plurality of elevator cars arrayed substantially equidistantly and equiangularly from a central shaft of the building (B). Each elevator car (12, 14, 16) includes a housing and at least one door (54). The housing has a floor, a ceiling, and at least one sidewall. A linearly translating platform (50) is mounted on the floor of each of the housings. The linearly translating platform (50) is adapted for automatically carrying the vehicle (V) and the at least one passenger through the at least one door (54). Further, the vehicle (V) may be rotated within the housing by driven rotation of the platform (50) or the floor, allowing for selective angular positioning of the vehicle (V) with respect to the housing. The elevator car (12) ascends and descends within a corresponding elevator shaft in a manner similar to that of a conventional elevator.

A multi-elevator vertically-lifting three-dimensional parking garage is disclosed. The parking garage includes a base, an elevator guide rail group, elevator guide rail seats, first guide rails, second guide rails, clamping mechanisms, annular parking spaces, and vehicle body adjustment devices; the elevator guide rail group is disposed on the base, the base is in shafting connection with the elevator guide rail group, the multiple elevator guide rail seats capable of sliding up and down are disposed on the elevator guide rail group, the elevator guide rail seats are hingedly connected to the first guide rails, the first guide rails are hingedly connected to the second guide rails in a sliding manner, the second guide rails are connected to the clamping mechanisms in a sliding manner, the annular parking spaces are disposed on the periphery of the elevator guide rail group in a surrounding manner.

Compact multi-tier parking garage (1) and method for storing vehicles (6) in such a parking garage. A multi-tier parking garage for vehicles having at least one tier (3) with at least one parking space (2) for one parked vehicle, an elevator (5) having an elevator platform (7) for supporting a vehicle movable between at least two positions, vertically aligned with the tier for allowing a vehicle to be transferred from the elevator platform to the parking space of the tier and from the parking space to the elevator platform. The elevator platform is rotatable to positions aligned with an entry (24) and an exit (25) such that vehicles can enter and leave driving in a forward direction.

Embodiments include a vehicle turntable comprising a central hub communicatively coupled to a control unit for receiving control signals; a plurality of wedge-shaped panels radially coupled to the central hub so as to form a circular surface; a plurality of wheels coupled to a number of the plurality of panels; and at least one motor configured to drive a corresponding one of the plurality of wheels and to receive the control signals from the central hub. Embodiments also include a system comprising a first turntable hub configured to control operation of a first turntable; and a control unit communicatively coupled to the first turntable hub to provide control signals to the first turntable hub.

An intelligent storage control system is provided in the present invention. The system includes a tower body, a delivery module, a drive module, a clamping module, an operation module, a control module, and a communication unit. When the control module receives a storage command transmitted by the operation module, the main controller is configured to analyze whether there is free storage space. If there is a free storage space, the control module controls the drive module to drive the delivery module to push the bicycle to the storage space of the tower body, and a serial number of the storage space is displaced on a display screen. The present invention can operate conveniently, and can save the footprint area of bicycles.