Multi Moving Modes,All Terrain Robot Platform
Independent Suspension System
Modular Design
Customizable
Size: 920*700*420mm
Weight: 75KG
Drive Form: 4WD-4WS(Four-Steering Four-Wheel Drive)
Motor: Wheel motor
Battery Capacity: 48V/30Ah
Charging Time: 3-4H
Charging Method: 48V/10A Manual charging
Battery life: 6H
Power Output: 24V/10A
Braking: Motor Braking
Protocol: CAN2.0B
Payload: 80KG
Mileage: 20km
Speed: 0-7.92km/h
Climbing Capacity: 20°(full load 80kg)
Obstacle Clearance: 50mm (full load 50kg)
Protection Level: IP44
Q: Can the A012 plus omnidirectional chassis handle rough terrains?
The A012 plus omnidirectional chassis is designed to tackle various terrains, including rough surfaces. Its robust construction and advanced mobility capabilities allow it to navigate challenging outdoor environments with ease.
Q: What is the maximum payload capacity of the A012 plus omnidirectional chassis?
The A012 plus omnidirectional chassis has a remarkable payload capacity of up to 80kg. This makes it suitable for handling heavy loads and performing tasks that require substantial carrying capacity.
Q: Are there any specific industries where the A012 plus omnidirectional chassis excels?
The versatility of the A012 plus omnidirectional chassis makes it well-suited for a wide range of industries. It can be effectively utilized in logistics, agriculture, surveillance, warehouse automation, and many other sectors that require efficient outdoor mobility solutions.
Q: How does the A012 plus omnidirectional chassis improve operational efficiency?
By utilizing an omnidirectional chassis, the A012 plus enhances maneuverability and agility in outdoor environments. This improves overall operational efficiency by reducing manual labor requirements and increasing productivity through optimized movement capabilities.
Q: Is the A012 plus omnidirectional chassis suitable for both indoor and outdoor use?
Yes, the A012 plus omnidirectional chassis is designed to operate seamlessly in both indoor and outdoor environments. Its adaptability allows it to transition between different spaces while maintaining stability and performance levels.