Shuobao Smart Berry Harvester

Vision AI | Precision Arm Control | Autonomous Chassis | Modular Design | Fully Customizable

Smart Picking Robot

——High-Accuracy Auto Harvesting for Cherry Tomatoes & Strawberries

With the rapid development of modern protected agriculture, the cultivation scale of high-value crops such as cherry tomatoes and strawberries continues to expand. However, the harvesting process still relies heavily on manual labor. High labor costs, inconsistent picking standards, and intense physical workload remain major factors limiting the productivity of orchards and greenhouse farms.

To address this, we introduce the Intelligent Fruit & Vegetable Picking Robot: an automated harvesting system that integrates AI vision recognition, a flexible picking robotic arm, and an autonomous navigation chassis, designed to help growers achieve efficient, standardized, and fully unmanned harvesting operations.

Product Positioning:

The Intelligent Fruit & Vegetable Picking Robot is mainly suitable for:

Greenhouse Strawberries / Tabletop Strawberries
Cherry Tomato
Soilless cultivation and modern intelligent greenhouses
Smart agriculture demonstration parks and scientific research laboratories

It is not only a harvesting device, but also a crucial node in the smart farm's sensing + operation + data system.

| Greenhouse Tomato Harvesting – Video Demo

| Features

🚜 Conquer Any Terrain

Built to tackle steep 35° slopes, mud, and challenging environments from mountains to greenhouses.

🧠 Smart Control System

Remote Control, Autonomous Navigation, Precision Operation, Unmanned Scheduling.

🔋 High Endurance & Load Capacity

500 kg Max Payload | Long-Range Battery | All-Weather Agricultural Transport

⚙️ Modular & Scalable

Features modular spraying, picking, and handling arms for a versatile agricultural robot.

| Applications

Shuobao Smart Tracked Chassis is widely used in
orchard transport,
greenhouse logistics,
field fertilization,
smart harvesting
and other agricultural scenarios.
With precise control and a stable drive system, it enables efficient, energy-saving, and safe unmanned operation,
bringing smart agriculture to life and making intelligent field management a reality.

| FAQ

Q1: How well does the harvesting robot identify areas that are crowded or covered by leaves?

The AI model, trained on a large amount of greenhouse data, can identify shading, reflections, shadows, and overlapping fruits.

Q2: Do the grippers need to be changed for different fruits and vegetables?

The flexible gripper is versatile and can harvest various types of small fruits, and supports customized modules.

Q3: Does navigation require the pre-installation of reflectors, magnetic strips, etc.

No. The entire system is based on SLAM and can operate by building its own map.

Q4: Can it be integrated into the user's existing control system?

Supports CAN / RS232 / ROS2, and can be integrated with third-party systems.