Aluminum Rigid High Speed Door for Aircraft Hangar Application
High Performance Industrial High Speed Door for Aviation Hangar
& Large Aircraft Maintenance Facilities
Product Overview
The Aluminum Rigid High Speed Door is a heavy-duty industrial high
speed door designed for aircraft hangars and large-scale aviation
maintenance facilities. Built with reinforced aluminum alloy rigid
panels and an advanced automation control system, this high speed
spiral door delivers exceptional stability, fast operation, and
high safety performance in extreme large-opening environments.
It is specially engineered for oversized entrances such as aircraft
hangars, helicopter maintenance bays, and aviation logistics
facilities, where ultra-large dimensions, high wind resistance, and
reliable automated control are required.
Key Features of Aircraft Hangar High Speed Door
Ultra-Large Size Customization Capability
- Supports oversized industrial door openings
- Suitable for aircraft and helicopter hangars
- Flexible width and height customization for aviation projects
High Safety Standard Design
- Reinforced aluminum rigid structure
- Stable operation under high wind load conditions
- Safety sensors and anti-collision protection systems
Advanced Automation Control System
- Intelligent control integration for hangar operations
- Compatible with remote control and building management systems
- Supports automated opening/closing sequences
High-Speed Operation for Efficient Access
- Opening speed: 0.6–1.2 m/s (adjustable)
- Closing speed: 0.6 m/s
- Ensures smooth aircraft entry and exit operations
Strong Structural Stability
- Aluminum alloy rigid panels with 10mm total thickness
- High wind resistance performance
- No deformation under large-span conditions
Energy Saving & Environmental Control
- Reduces air exchange in large hangar spaces
- Improves indoor climate stability
- Supports energy-efficient aviation facility operation
Product Parameters
| Parameter | Description |
| Motor System | The motor drive system adopts a branded motor system, equipped with
an encoder and an emergency manual opening mechanism. Ensures optimal performance of safety protection devices (such as
infrared sensors) with fast rebound response. Features strong overload capacity, capable of operating over 1,000
cycles per day in high-frequency applications. Supports
automatic/manual mode switching while ensuring safe operation of
the high-speed door. The control cabinet is installed inside the
workshop, and an external up/down push button is provided outside
the door for convenient access by external personnel. |
| Control System | The rigid high-speed door is equipped with a dedicated control
system and a specialized control box with power options of 0.75 /
1.5 / 2.2 kW. The control box includes a main power switch, emergency stop
button, manual/automatic mode selector, and manual up/down control
buttons. It allows precise control of the door opening height. |
| End Buffering | End buffering technology effectively protects the reducer and
operating mechanism from rigid impact damage. Speed can be
digitally adjusted according to actual requirements, enabling
full-stroke speed variation (fast–slow–stop), reducing wear on
components and providing outstanding protection for the reduction
mechanism. |
| Door Structure | The door curtain adopts a modular assembly structure, using
aluminum alloy panels specifically designed for industrial doors
with multi-layer sealing strips. The aluminum alloy hollow panel has a standard width of 90 mm,
thickness of 1.5 mm, and wall thickness of 1.0 mm. The surface is
anodized with organic coloring, available in optional colors. Panels are sealed with flexible connection strips, offering a
folding life of over one million cycles. The panels do not contact
each other, maintaining long-term flatness and durability. |
| Safety System | Infrared Safety Sensors: Photoelectric sensors are installed on both sides of the door
frame. When an obstacle is detected beneath the door, it remains
open. If an object passes through during closing, the door reopens
to the preset open position and descends again after a delay once
the area is clear. External infrared devices can be connected to
control fast rebound. Rebound speed and infrared function logic
(single activation or continuous hold-open) can be easily adjusted
via parameters. Bottom Safety Edge: When an obstacle is located within the infrared blind zone during
closing, the bottom safety edge triggers an immediate upward
rebound upon contact, effectively protecting people and objects and
preventing accidents. |
| Wind Resistance | Wind resistance up to 32 m/s, compliant with national standard
Grade 12 wind resistance. |
| Transparent Window | High-quality PVC panels with a double-layer structure provide
excellent thermal insulation while maintaining high transparency
and natural lighting. Clear visibility from both sides enhances
aesthetics and overall appearance. (Optional) |
| Sealing Performance | Multiple sealing designs including guide rail sealing, inter-panel
sealing, top sealing, and bottom sealing ensure excellent
airtightness and effective environmental isolation between indoor
and outdoor areas. |
| Thermal Insulation Performance | For an installed door in the closed state (4 × 3 m), the thermal
insulation coefficient is K < 0.6 W/(㎡·K). |
| Manual Operation | In the event of a power failure, the motor brake can be released at
any time, allowing the door to be lifted with the assistance of the
balancing system. This effectively resolves situations where the
door cannot be opened due to power loss or malfunction. |
| Panel Drive System | The door panels are driven by a high-quality, wear-resistant,
high-strength roller chain structure. The synchronized chain drives
the door into a variable-speed roller mechanism for smooth and
efficient operation. |
| Operating Methods | Standard one-touch push button with emergency stop function; manual
opening operation available during power failure. |
Application Value in Aircraft Hangar
Supports Ultra-Large Aircraft Access
The aluminum rigid high speed door can be customized for extremely
large openings, making it ideal for commercial aircraft, cargo
planes, and helicopters.
Ensures High Safety Operation
Designed to meet high aviation safety standards, with stable
structural performance and intelligent protection systems to reduce
operational risks.
Improves Hangar Operational Efficiency
Fast opening and closing speeds reduce waiting time for aircraft
movement, maintenance operations, and logistics handling.
Enables Full Automation Control
Integrated automation system allows seamless control of hangar
doors, improving operational convenience and efficiency.
Enhances Energy Efficiency in Large Spaces
The sealed structure reduces air leakage, helping maintain stable
temperature conditions in large-volume hangar environments.
Typical Applications
Aircraft Maintenance Hangar
Large-scale aircraft repair and servicing operations
Aviation Logistics Facility
Cargo handling and aircraft storage areas
Helicopter maintenance baysH
Airport Industrial Facilities
Specialized aviation support infrastructure
FAQ
Can this high speed door be used for aircraft hangars?
Yes, it is specifically designed for aircraft hangars and large
aviation maintenance facilities.
What is the maximum size available?
It supports ultra-large customized dimensions suitable for
commercial aircraft and helicopter hangars.
Is it safe for aviation operations?
Yes, it is built with high safety standards, including structural
reinforcement and sensor-based protection systems.
Does it support automation control?
Yes, it can be integrated with intelligent building and hangar
control systems.
Is it suitable for outdoor hangar entrances?
Yes, its wind-resistant aluminum structure is suitable for large
exterior aviation entrances.