CE certified, high-reliability touch systems and processing units optimized for edge rendering and visual interface operations
In the era of Smart Factory 4.0, the definition of Industrial VR (Virtual Reality) Solutions extends far beyond software head-mounted units. It requires a physical hardware foundation that can withstand dust, high temperatures, humidity, and continuous electrical noise. Without robust industrial edge computing power and stable Human-Machine Interfaces (HMI), complex immersive simulations, real-time spatial digital twin overlays, and remote-guided maintenance networks cannot achieve operational reliability.
As a premier CE-certified hardware designer and manufacturer, Hangzhou Fray Tech Co., Ltd. bridges this gap. We supply the high-performance computation platforms, fanless edge servers, and sunlight-readable panels that host and interface with industrial AR/VR engines in harsh factory floor environments.
Analyzing the shift from conceptual digital twins to high-reliability on-site execution systems
Global manufacturing operations are moving from 2D monitoring monitors to spatial dashboards. Real-time sensor integration via Modbus or RS485 feeds virtual digital twins directly. These visualization tasks require localized edge processors capable of low-latency rendering to avoid system lag and operator simulation sickness.
European and American procurement teams mandate CE conformity. Industrial electronics must limit electromagnetic interference (EMI) and resist high electrostatic discharges (ESD). Our hardware components undergo rigorous testing cycles to ensure seamless integration into automotive, aeronautic, and petrochemical networks.
Traditional commercial servers crumble when subjected to constant plant vibrations, metal dust, and thermal swings. Today's procurement agents prioritize fanless cooling architectures, high IP protection ratings (IP65 to IP67), and wide-temperature-range motherboards that operate from -20°C to +70°C.
Located in Hangzhou's technology hub, Hangzhou Fray Tech Co., Ltd. leverages a highly optimized supply chain that ensures both production agility and cost performance. By using advanced component integration and automated assembly, we can rapidly customize rugged hardware designs to match specific VR/AR industrial applications.
Engineered by Hangzhou Fray Tech for robust and stable operation in complex scenarios
Equipped with massive heat dissipation fins and low-power, high-compute Intel/ARM processors. Supporting up to 64GB DDR4 RAM, dual LAN configurations, and extensive serial interfaces (RS485/RS232/CAN Bus), these units serve as local gateways that render real-time VR/AR overlay coordinates.
Featuring high-brightness TFT displays (up to 1100 nits) designed for outdoor use and high-glare environments. These panels prevent visual wash-out, allowing field supervisors to cross-reference virtual layouts with physical machines directly under direct sunlight.
IP65 and IP67 certified Windows/Android tablets built to handle dynamic floor inspections. Fitted with barcode readers, fingerprint scanners, GPS, and 4G/5G capabilities, they sync on-site operational logs with remote virtual command centers.
How our clients deploy Fray Tech hardware across specialized industrial sectors
In petrochemical refineries, explosive gas is a constant safety hazard. Standard computing hardware can spark and ignite the atmosphere. Fray Tech's ATEX explosion-proof industrial touch panel PCs are built with dust-ignition-proof casings and spark-free circuit designs, allowing safety inspectors to run digital twin tracking applications directly inside hazardous zones.
High magnetic fields, severe vibration, and extreme ambient temperatures make steel mills hostile to conventional computing hardware. By utilizing Fray Tech's fanless mini PCs and heavy-duty IP67 panel computers, operators can run real-time 3D simulation loops and HMI diagnostics directly alongside hot strip mills.
Port cranes and vessel decks are exposed to high vibrations, salt mist, and sunlight glare. Our custom sunlight-visible, vehicle-mounted panel PCs operate over a wide voltage range and feature built-in CAN bus interfaces. This allows them to monitor machinery positions and stream spatial logistics data to central operations in real time.
Critical engineering questions answered for hardware procurement managers
Our systems act as the rugged edge control interface and data acquisition node. While VR headsets render rich graphics, our fanless mini PCs and rugged HMIs process sensor data (vibration, heat, and PLC outputs) through high-speed I/O interfaces like RS485 and CAN Bus. They stream this telemetry data to VR/AR engines with minimal latency, ensuring virtual training models mirror real-world machine behaviors.
CE certification ensures compliance with European safety, health, and environmental standards. It guarantees that our industrial computers and displays will not emit electromagnetic waves that disrupt nearby factory machinery, and that they possess adequate immunity to external electrostatic discharges (ESD) and electrical surges common in heavy industrial grids.
Yes, our IP67-rated waterproof and dustproof panel computers use hermetically sealed alloy chassis and M12 waterproof aviation connectors. This prevents fine particulates, water jets, and corrosive cleaning chemicals from damaging the internal components, making them ideal for food production lines and mining operations.
Our in-house design and engineering teams provide end-to-end customization services. We can adjust motherboard layouts, integrate proprietary chips, modify I/O port configurations (such as adding extra RJ45, CAN Bus, or GPIO interfaces), and custom-engineer mounting kits to fit unique machine recesses.
Standard displays (typically 250–350 nits) look washed out under bright sunlight, leading to operator eye strain and potential input errors. Our 1100-nit panels use high-efficiency LED backlights and optical bonding techniques to reduce internal reflections. This ensures high readability and clear contrast, even in direct midday sun.
High-performance HMI, interactive panels, and biometric readers designed for process optimization
A visual overview of our manufacturing lines, testing labs, and assembly standards