Automated parking systems
Intelligent parking for the future
Intelligent car parking
Mechanized and computer-controlled systems designed to automate the entire parking process.
Narrow urban areas, beneath or within buildings, where traditional garages are inefficient.
The world's largest automated car park — Al Jahra, Kuwait, with a capacity of 2,314 vehicles.
In Denmark – Dokk1 in Aarhus, with 1,000 spaces and 20 lifts.
As the urban environment develops, every free space becomes valuable
Systems require up to 60% less volume compared to multi-story parking garages
Eliminates human access to vehicles, reducing risks of theft and damage
Drivers exit vehicles; the system handles placement automatically
Reduced engine idle time and emissions
Platform-type parking system
Uses vertically rising platforms (VRP) and conveyors for vertical and horizontal transport.
Platform system steps
Step #1
Enter the transfer cabin.
Step #2
Confirm the parking request to start the storage process.
Step #3
A conveyor transfers the vehicle onto a vertical reciprocating platform (VRP).
Step #4
The VRP moves vertically while the conveyor moves horizontally, simultaneously toward a free space.
Step #5
The conveyor transfers the vehicle to the parking spot and returns to the VRP to complete the storage process.
Shuttle-type parking system
Includes vertical recirculating conveyors (VRC) and sliding shuttles for each level.
Shuttle system steps
Step #1
Enter the transfer cabin. Confirm the parking request to begin the storage process.
Step #2
A vertical recirculating conveyor (VRC) transfers the vehicle from the transfer cabin to the parking levels.
Step #3
A conveyor transfers the vehicle onto a sliding shuttle designed for each parking level.
Step #4
The shuttle moves to a free space and the conveyor transfers the vehicle to the parking spot.
Step #5
The conveyor returns to the shuttle to complete the storage procedure.
Rack-and-Crane parking system
Uses moving stacker cranes and lifting conveyors.
Steps of the rack-and-crane system
Step #1
Enter the transfer cabin.
Step #2
Confirm the parking request to start the storage process.
Step #3
A conveyor transfers the vehicle from the transfer cabin onto a moving stacker crane.
Step #4
The distribution crane moves laterally and lifts the conveyor vertically to a specific parking level.
Step #5
The conveyor transfers the vehicle to a free parking space and then returns to the stacker crane to complete the storage procedure.
Tower-type parking system
Vertical recirculating conveyors and shuttles in a tower structure.
Tower system steps
Step #1
Enter the transfer cabin. Confirm the parking request to begin the storage process.
Step #2
A vertical recirculating conveyor (VRC) transfers the vehicle from the transfer cabin to the parking levels.
Step #3
The shuttle moves to a free space and the conveyor transfers the vehicle to the parking spot.
Step #4
The conveyor returns to the shuttle to complete the storage procedure.
Semi-automatic parking system, “Slider” type
Semi-automated sliding system.
The semi-automated sliding system optimizes parking space allocation under moderate load without requiring full automation.
Semi-automatic parking system, “Rotary” type
Semi-automated rotational system.
The rotary system combines vertical and circular movement for optimal use of space, suitable for sites with limited area.
Notable projects
Completed projects with automated parking systems worldwide.
Al Jahra, Kuwait
The largest automated parking in the world with 2,314 spaces
Dokk1, Aarhus, Denmark
1,000 spaces with 20 lifting devices
Request a parking system
Contact us for a consultation and a tailored proposal for an automated parking system.
