E

Triangulation LIDAR

RPLIDAR A1

Basic model

RPLIDAR A2

Cost effective

RPLIDAR A3

Multipoint interaction
E

TOF LIDAR

LPX-T1

AGV preferred

RPLIDAR S2

Indoor & Outdoor

RPLIDAR S3

Best performance in black objects

RPLIDAR C1

The newest model

LPX-E3

Field Monitoring
E

Mapping Solution

Mapper M2

M2M2 Mapper

Slamkit

SLAM spatial localization

Aurora

3D Point Cloud

E

Robot Base

Athena 2.0

Compact and flexible

Apollo 2.0

Autonomous Navigation
E

Robot

F3

food delivery robot

H2

hotel robot

P3 PRO

factory robot

New Technology Added Apollo 2.0 Robot Chassis Adaptable to All Scenarios Now Available! (es translation)

Ago 14, 2024 | Technology

The robot chassis is a crucial component of the robotic system, supporting fundamental functions such as mobility, navigation, and obstacle avoidance. Additionally, it provides a «platform» for extending robotic applications, further driving the development of the industry.

When addressing diverse and complex industry application scenarios, users undoubtedly have multifaceted expectations for robot chassis: high environmental adaptability, precise positioning, navigation, and obstacle avoidance capabilities, convenient development and integration, and safe product application, among others.

Since launching its first ZEUS robot chassis in 2015, Slamtec has been dedicated to solving the real-world challenges users encounter in practical applications. Today, Slamtec introduces the all-new «agile, all-scenario, general-purpose» robot chassis—Apollo 2.0. With innovative technology and a revolutionary navigation system, this chassis offers a highly usable solution for robot development and application, truly helping users reduce costs and increase efficiency.

High environmental adaptability

Dual radar configuration

Comprehensive perception, excellent navigation and obstacle avoidance capabilities

Apollo 2.0 is equipped with both a primary radar and a low-height object detection radar. This dual radar setup allows it to accurately address static and dynamic obstacles as well as low-height obstacles, enabling Apollo 2.0 to comprehensively perceive its surrounding environment and effectively avoid collisions and obstructions.

Equipped with industrial-grade safety edges, automotive-grade ultrasonic sensors, anti-drop sensors, depth cameras, and various other sensors, Apollo 2.0 ensures stable operation in various complex environments, achieving a zero false-trigger rate.

The Apollo 2.0 features a circular design, which enhances space utilization and allows for more agile movement in complex environments.

High-Precision Positioning and Navigation

Master Every Detail in All Scenarios

Apollo 2.0 utilizes the all-new SLAMWARE 3.0 autonomous positioning and navigation system, combining data fusion from multiple sensors to achieve centimeter-level high-precision positioning and navigation.

With SharpEdgeTM fine mapping technology, it constructs high-precision, centimeter-level maps with ultra-high resolution, ensuring no cumulative errors.

Whether in complex indoor environments or dynamic outdoor settings, Apollo 2.0 rapidly adapts to ensure robots execute tasks with pinpoint accuracy.

Enhancing Work Efficiency

Multi-Robot Scheduling and Coordination

Effectively Boosting Operational Efficiency

Apollo 2.0 supports multi-robot scheduling functionality (LORA), enabling efficient data transmission and collaboration among multiple robots, thus enhancing overall operational efficiency. This capability is ideal for scenarios such as warehouse logistics and multi-area delivery in hotels, where multiple robots need to work together. It significantly improves overall operational efficiency and reduces labor costs.


Multiple Navigation Modes

Navigate Freely, Overtake in Straight Lines

Apollo 2.0 is equipped with directional track mode and track prioritization mode. These features are especially beneficial in industrial settings, helping robots efficiently accomplish tasks.

Apollo 2.0 supports precise docking with reflector panels, achieving high-precision positioning with an accuracy error of ±1.5cm and angular error of ±3°. This capability facilitates precise robot docking in industrial scenarios. Additionally, it features rolling travel log storage (black box), providing users with easy access for review and adding an extra layer of safety assurance.

Outstanding Performance, Efficient Development

Outstanding Obstacle Avoidance and Endurance Capabilities

Dual-row industrial wheels for stability in any direction, equipped with standard lithium iron phosphate batteries.

Enhanced Climbing and Obstacle Crossing Capability:

– Vertical step climbing up to 2cm

– Horizontal trench crossing up to 6cm

– Ability to climb slopes up to 10°

Standard Lithium Iron Phosphate Battery:

– 30Ah battery capacity

– Up to 14 hours of operation at full load

– 2000 cycles of full charge and discharge

– Supports higher discharge rates

– Stable, safe, large capacity, long endurance, and durable

– Supports fast charging and line charging modes

– Effectively enhances the efficiency of robot chassis operations


Safe and Easy to Develop

IP54 protection rating for high integration and durability

Apollo 2.0 features an IP54 protection rating, providing resistance to water and dust. Its enclosed bottom design prevents foreign object ingress, thus protecting critical components. The chassis has been optimized with improved materials, wire connectors, and hardware, ensuring it can withstand harsh industrial environments and adverse conditions. With an air discharge rating of 15KV, it offers enhanced safety for use in demanding industrial settings.

Compatible with standard chassis mounting holes on the market, ensuring high integration. Effectively reduces development complexity and shortens the R&D cycle.

Product Dimensions

«More real-world test videos of Apollo 2.0, we won’t miss them!»