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This method involves intelligent robot operations. Located under the vehicle chassis, the robot could move the vehicle to any desirable place with the aid of mechanical arms, which abandons the conventional puzzle mode and omit the installation of intermediate transition pan (pallets, comb bracket, shoe, etc.) this kind garage is commonly constructed on the buildings. The parked vehicles are parked directly on the floor or steel platforms. |
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Operating Principle
- Enter the underside of the vehicle; adjust the space of two conjoined structure units and locate the center of rear /front wheels.
- Open two pair of motor driven positioning arms and secure the outboard front/ rear wheels
- Stretch two hydraulic retaining arms and lift the vehicle through inboard wheels. The traveling mechanism operates and conveys the vehicle to the desirable locations
Features:
- The net height of parking lot is less than the conventional comb bracket.
- High intelligence and a high integration of mechanical, electrical, light, instrument, and communication technology.
- High reliability. Standby robots could be employed once a robot is out of service, which could reduce the vehicle taking-out/parking time at the time of system failures
- Dramatically reduce the taking/parking time compared with puzzle mode.
- Smoother operations for mechanical garage.
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General Technical Parameter Table |
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Applicable Vehicle Parameters
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Z Large
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D large
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K Mini-bus
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Length mm
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≤4700
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≤5000
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≤5000
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Width mm
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≤1800
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≤1850
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≤1850
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Height mm
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≤1450
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≤1550
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≤2050
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Weight
kg
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≤1500
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≤1700
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≤1850
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Operating Parameters
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Walking Speed
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20m/s
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Power
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Bearing Load
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2000kg
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Average Service Time
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Total Motor Power
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4KW
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