T: +86-137-0129-0877
E: sales@skyairdome.com
E: sales@skyairdome.com
UNIT 1406B, 14/F, THE BELGIAN BANK BUILDING, NOS. 721 - 725 NATHAN ROAD, KOWLOON, HONG KONG
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High Strength Membrane Material Air Supported Structure for Indoor Basketball Court
Features
Name | High Strength Membrane Material Air Supported Structure for Indoor Basketball Court |
Size | customized |
Area | 0.99acre(4000㎡) |
Material | PVDF membrane material |
Equipment | basketball courts, stands, lighting, rest room, etc. |
Location | - |
Completion Year | - |
Introduction
The air supported structure for basketball court or pneumatic structures are Tensile Structure systems in which both the shape and the bearing capacity is determined by the pressure difference between the shell and the atmospheric pressure, creating a highly efficient structural system in terms of ratio between its weight and the weight the structure can bear. The excess pressure is kept by the heating system.
The stability of the air supported structure, even in the case of power failure, is ensured by an emergency unit powered by a diesel engine, connected to the pressure sensor and to a wind sensor which detects the wind speed. It automatically enters into action immediately after power failure. To check the correct process there is a PLC programmed to manage the operation of the structure and to economize the running costs with the option to send the data and any anomalies.
The inside view of basketball air dome
High Strength Membrane Material Air Supported Structure for Indoor Basketball Court
Features
Name | High Strength Membrane Material Air Supported Structure for Indoor Basketball Court |
Size | customized |
Area | 0.99acre(4000㎡) |
Material | PVDF membrane material |
Equipment | basketball courts, stands, lighting, rest room, etc. |
Location | - |
Completion Year | - |
Introduction
The air supported structure for basketball court or pneumatic structures are Tensile Structure systems in which both the shape and the bearing capacity is determined by the pressure difference between the shell and the atmospheric pressure, creating a highly efficient structural system in terms of ratio between its weight and the weight the structure can bear. The excess pressure is kept by the heating system.
The stability of the air supported structure, even in the case of power failure, is ensured by an emergency unit powered by a diesel engine, connected to the pressure sensor and to a wind sensor which detects the wind speed. It automatically enters into action immediately after power failure. To check the correct process there is a PLC programmed to manage the operation of the structure and to economize the running costs with the option to send the data and any anomalies.
The inside view of basketball air dome
