Quick Assembly & Stable Structure, Efficiency Upgraded: Quick-Assembly aluminum truss System Accelerates Stage Implementation
During the tight construction schedule of exhibitions or the limited time for tour transitions, the assembly efficiency of the Truss system directly determines the rhythm of event preparation. The Quick-Assembly Aluminum Truss System takes "rapid construction + reliable performance" as its core. It is not only an independent and efficient truss solution but also can be deeply integrated into the
Raya Stage System, working in synergy with the full range of components to free stage structure construction from tedious processes and achieve "ready-to-use after assembly".
Core Advantages: Quick-Assembly Design, Balancing Efficiency and QualityBased on Aluminum Truss, the Quick-Assembly Aluminum Truss System upgrades the quick-assembly experience through structural optimization. It adopts pre-assembled connectors and snap-on splicing design, requiring no professional welding tools. An ordinary team can complete the assembly of a set of standard trusses in 1-2 hours, with efficiency far exceeding that of traditional trusses. At the same time, it retains the lightweight and corrosion-resistant properties of aluminum alloy materials, reducing transportation costs by 30% compared with the
Steel Truss System, and can also resist wind and rain erosion when used outdoors. It can be flexibly combined with
Aluminum Stage Truss to support various shapes such as straight lines and arcs, balancing quick-assembly needs and creative presentation.
System Synergy: Seamless Adaptation to Raya Stage System, Building an Integrated Solution
As a key module of the Raya Stage System, the Quick-Assembly Aluminum Truss System can efficiently cooperate with the full range of core components to form a comprehensive stage solution without shortcomings:
When matched with the Aluminum Alloy Plug-in Stage, the former is used to build top lighting frames and background frames, while the latter forms the main stage. Both adopt quick-assembly designs and can be constructed simultaneously, shortening the overall construction cycle by 50%, which perfectly meets the urgent needs of temporary events.
When there is a need to hang heavy equipment (such as medium-sized LED screens), it can be used in collaboration with the Steel Truss System. The Quick-Assembly Aluminum Truss System is responsible for auxiliary structures, while the Steel Truss System bears the core heavy load. This not only ensures safety but also avoids the efficiency or load-bearing shortcomings of a single truss system.
When used with
Raya Scaffolding, it can provide a stable operation platform for high-altitude splicing and detailed debugging of trusses. Especially in the construction of large venues, it can reduce the risk of high-altitude operations and further improve installation efficiency and accuracy.
Scenario Value: Adapting to Diverse Scenarios, Solving Efficiency Pain Points
The quick-assembly advantage of the Quick-Assembly Aluminum Truss System is particularly prominent in various high-rhythm scenarios:
In brand pop-up events, it can be quickly combined with the Aluminum Alloy Plug-in Stage to complete the overall construction of "stage + lighting frame" within 3 hours, without occupying the venue for a long time.
During tour transitions, the lightweight design facilitates cross-city transportation, and the quick-assembly feature allows the team to complete the truss assembly at the new venue within half a day, without delaying the performance rehearsal.
At small music festivals, its corrosion-resistant and wind-resistant properties, combined with the auxiliary support of Raya
Scaffolding, can quickly reinforce the truss even in case of sudden weather, ensuring the normal progress of the event.
From independent truss application to the overall solution of the Raya Stage System, the Quick-Assembly Aluminum Truss System takes quick assembly as its core, linking the Aluminum Alloy Plug-in Stage, Steel Truss System, Aluminum
stage truss, and Raya Scaffolding. It not only solves the pain points of traditional trusses such as "slow assembly and heavy transportation" but also ensures the safety and creativity of the stage structure, making the stage preparation for every event more efficient and flexible.
Flexible Combination: Shaping Diverse Event Space Forms
Unlimited Forms: By combining straight, corner,compact event truss system and curved segments, any structure can be built:
Common structures in exhibitions: "3m×2.5m booth backdrop trusses" and "product display trusses";
Structures for weddings: "curved ceremony pavilion trusses" aluminum truss and "lighting trusses on both sides of the runway";
Structures for outdoor roadshows: "4m×3m sunshade trusses" and "LED screen suspension trusses."
Customizable Sizes: The conventional height range is 2-6m (e.g., 3m for wedding backdrop trusses, 4.5m for roadshow sunshade trusses). Aluminum Stage Truss The maximum single span can reach 8m (intermediate support columns are required for spans over 8m to prevent excessive deflection). Multiple segments can be spliced to cover larger areas, such as a "10m×5m sunshade truss" for the audience area of a music festival.
Integrated Functionality: Pre-reserved "equipment installation holes" (spaced 50-80cm apart) on the truss surface allow direct Steel Truss System suspension of low-power lighting (e.g., par cans, string lights) and small audio systems. Some models are equipped with "print hooks," enabling backdrop cloth to be directly fixed to the truss without additional backdrop boards—achieving "support + decoration" in one step.
Safe & Reliable: Balancing Load-Bearing stage truss system and Protection for Temporary Scenarios Clear Load-Bearing Capacity: A conventional aluminum alloy truss (3m span) can bear 50-100kg (suitable for hanging lighting and small LED screens), while a reinforced model (wall thickness ≥2.0mm) can bear 100-150kg (suitable for hanging small P3/P4 LED screens). Manufacturers must mark the "rated load-bearing capacity" and provide basic load-bearing instructions (e.g., load-bearing capacity decreases by 15% for every 1m increase in span) to avoid overloading.
Wuxi Zhongshengwei Metal Products Co., Ltd.
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