packing volume: 14cbm
manual type
Item | Specification(squre truss) | Qty | ||||||
length | main tube(mm) | size(mm) | ||||||
12.00 m Beam(front) | 2 sets | 3.00 m | 50×3.0 | CS389×389 | 8 pcs | |||
2.00 m | 50×3.0 | CS389×389 | pcs | |||||
1.00 m | 50×3.0 | CS389×389 | pcs | |||||
10.00 m Beam(side) | 2 sets | 3.00 m | 50×3.0 | CS389×389 | 6 pcs | |||
2.00 m | 50×3.0 | CS389×389 | pcs | |||||
1.00 m | 50×3.0 | CS389×389 | 2 pcs | |||||
8.00 m Pillar | 4 sets | 3.00 m | 50×3.0 | CS289×289 | 8 pcs | |||
2.00 m | 50×3.0 | CS289×289 | pcs | |||||
1.00 m | 50×3.0 | CS289×289 | 4 pcs | |||||
Tower | Spigot Sleeve Block S | 4 pcs | ||||||
Steel Base S | 4 pcs | |||||||
Top Section S | 4 pcs | |||||||
Manual hoist,BA05 2Tons | 4 pcs | |||||||
Spigot Hinge Section,Height 1m | 4 pcs | |||||||
Fibre sling,BA04,2 tons 3m | 4 pcs | |||||||
Long outrigger | 16 pcs | |||||||
Item | Specification(squre truss) | Qty | ||||||
length | main tube(mm) | size(mm) | ||||||
Roof Pillar | 2 sets | 1.20 m | 50×3.0 | CS289×289 | 2 pcs | |||
10.00 m Top Beam | 1 sets | 3.00 m | 50×3.0 | CS289×289 | 3 pcs | |||
2.00 m | 50×3.0 | CS289×289 | pcs | |||||
1.00 m | 50×3.0 | CS289×289 | 1 pcs | |||||
14.00 m Arch Beam | 2 sets | 3.00 m | 50×3.0 | CS289×289 | 8 pcs | |||
2.00 m | 50×3.0 | CS289×289 | pcs | |||||
1.00 m | 50×3.0 | CS289×289 | 4 pcs | |||||
10.00 m Ladder truss | 5 sets | 3.00 m | 50×3.0 | CL40,389*50 | 15 pcs | |||
2.00 m | 50×3.0 | CL40,389*50 | pcs | |||||
1.00 m | 50×3.0 | CL40,389*50 | 5 pcs | |||||
Roof Components | spigot multi cube, use for roof beam truss | CS289×289 | 2 pcs | |||||
Connect plate with clamp | 2 pcs | |||||||
Single clamp | 80 pcs | |||||||
Double clamp | 8 pcs | |||||||
roof canopy material:pvc, Blue Colour or customized. | 247.04 | 1 pcs | ||||||
Item | Specification(squre truss) | Qty | ||||||
length | main tube(mm) | size(mm) | ||||||
3.00 m Wings Beam | 2 sets | 3.00 m | 50×3.0 | CS389×389 | 2 pcs | |||
2.00 m | 50×3.0 | CS389×389 | pcs | |||||
1.00 m | 50×3.0 | CS389×389 | pcs | |||||
8.00 m Wings Pillar | 2 sets | 3.00 m | 50×3.0 | CS289×289 | 4 pcs | |||
2.00 m | 50×3.0 | CS289×289 | pcs | |||||
1.00 m | 50×3.0 | CS289×289 | 2 pcs | |||||
Wings Tower | Spigot Sleeve Block S | 2 pcs | ||||||
Steel Base S | 2 pcs | |||||||
Top Section S | 2 pcs | |||||||
Manual hoist,BA05 2Tons | 2 pcs | |||||||
Spigot Hinge Section,Height 1m | 2 pcs | |||||||
Fibre sling,BA04,2 tons 3m | 2 pcs | |||||||
Long outrigger | 8 pcs | |||||||
Truss Accessory | Conical coupler & Safrty clip & pin | whole set |
The combination of line array speakers and curved roof trusses presents a compelling solution for achieving optimal sound dispersion in a 12m x 10m space with an 8m height and 3m wing width. This configuration, while seemingly complex, offers distinct advantages over traditional speaker arrangements, particularly in scenarios demanding a consistent and high-quality audio experience for a large audience.
Line array speakers, characterized by their vertical arrangement of multiple drivers, excel in sound projection and control. The inherent directivity of these systems allows for precise aiming of sound waves, minimizing reflections and maximizing the clarity of the audio signal. This is crucial within a relatively confined space where reflections can distort the sound, creating an uneven and unpleasant listening experience.
Curved roof trusses, in turn, provide a robust and adaptable framework for suspending the line arrays. Their curvature, when strategically positioned, can further enhance sound dispersion by guiding the sound waves towards the audience. This curvature mitigates the potential for "dead spots" where sound levels drop significantly, ensuring a more uniform and engaging listening experience across the entire space.
The 8m height of the space offers ample vertical clearance for the line array system, enabling the speakers to be positioned at an optimal angle for maximum coverage. The 3m wing width provides additional flexibility for adjusting the array configuration to accommodate specific seating arrangements and optimize sound distribution for different audience sections.
However, the integration of line arrays and curved trusses requires careful planning and execution to maximize their benefits. Factors like the specific speaker model, the curvature of the trusses, and the placement of the system within the space must be meticulously considered. The expertise of audio engineers is essential in accurately calculating the ideal angles and distances to achieve the desired sound dispersion pattern.
Furthermore, the use of advanced acoustic modeling software can simulate the performance of the system before installation, allowing for adjustments and refinements to ensure optimal sound quality and coverage.
In conclusion, the combination of line array speakers and curved roof trusses in a 12x10m space offers a powerful solution for achieving exceptional sound dispersion. By harnessing the inherent directional properties of line arrays and the controlled sound guidance offered by curved structures, this configuration creates a high-quality and engaging audio experience for audiences. Careful planning, expert implementation, and the use of advanced tools are crucial to maximize the potential of this sophisticated sound system.
FOSHAN DRAGON STAGE
No.7,Xiaxi Industrial Area,Heshun,Nanhai District,Foshan,528241,Guangdong,China.
+86 136 3132 8997