(Suitable for Small-Scale Service/Collaborative Robots, One-Piece Die-Casting Molding)
This product is a small-scale robot body shell made of aluminum alloy via die-casting. As a core structural component of the robot body, it meets the integration needs of service robots (e.g., guide robots, delivery robots) and collaborative robots. It integrates multiple functions, including structural support, internal component protection, and serving as an exterior carrier, making it an "appearance + function" integrated component for the entire robot.
One-Piece Die-Casting Molding: Adopts ADC12 die-cast aluminum alloy material. The complex curved structure is formed in one piece through die-casting technology, which significantly improves production efficiency compared to CNC machining. At the same time, it ensures the integrity of the shell structure and avoids gaps caused by multi-component assembly.
Lightweight + Structural Strength: Die-cast aluminum alloy has a low density (approximately 2.7g/cm³), making the robot body lighter (suitable for mobile operation scenarios). Meanwhile, the material has good impact resistance, which can withstand slight collisions during the daily operation of service robots and protect internal components.
Surface Process Adaptability: The shell surface can be treated with high-gloss/matte finishes (presenting a high-gloss texture currently). This not only enhances the industrial appearance texture of the robot but also facilitates cleaning of stains during daily use, meeting the image requirements of service scenarios such as shopping malls and offices.
Component Protection and Integration: As the robot body shell, it can accommodate and protect core internal components such as the control motherboard, sensors, and batteries. The opening design (small holes) on the top can be used for heat dissipation or sensor signal penetration (e.g., acoustic wave sensors).
Modular Connection: The dual-contact interface at the bottom supports quick connection/power supply with other robot components (e.g., chassis, functional modules such as extended arms). It adapts to the "modular assembly" design logic of service robots and simplifies the overall assembly process.
Scenario Compatibility: The curved body design is suitable for the mobile operation needs of small-scale robots (reducing space occupation). The durability of aluminum alloy also supports long-term continuous operation (e.g., high-frequency daily use of shopping mall guide robots).
Small-Scale Robot Integrators/Manufacturers: As a standardized body shell component, it adapts to the mass production of service/collaborative robots and reduces the customization cost of structural parts.
Robot Solution Providers: Used for the body structure integration of customized small-scale robot projects, quickly matching the assembly needs of different functional modules.
Robot Accessory Suppliers: Serves as a vulnerable structural part of robots (for replacement when the shell is damaged by collision) and provides after-sales accessory support.
Die-Casting Technology: The complex curved structure is formed in one piece, with dimensional accuracy controlled within ±0.1mm, meeting the precise assembly requirements of robot components.
Quality Control Standards: Each batch of products undergoes 100% inspection for appearance defects, sampling inspection for dimensions, and verification of material composition. This ensures the shell is free of die-casting pores and meets structural strength requirements.
Environmental Compliance: The die-cast aluminum alloy material is recyclable, complying with the environmental production requirements of the robot industry. It also supports certifications such as RoHS for export needs.
