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Nanluzhuang Village, Majiawu Town, Renqiu City, Cangzhou City, Hebei Province, China
PRODUCT
The ladder beam is connected to the vertical and horizontal rods via bowl-type connectors, forming a three-dimensional force-bearing system. The axes of all members intersect at a single point, with nodes lying within the plane of the framework. The connectors exhibit robust mechanical performance—resisting bending, shear, and torsion—ensuring that the overall structure is stable and reliable, while also providing a load-carrying capacity approximately 15% higher than traditional cup-lock scaffolding systems.
Insert the crossbar insert into the lower bowl buckle of the upright post, press firmly and rotate the upper bowl buckle, securing it with the locking pin to create a stable structure where the axes converge at a single point.
Erect the pole and secure the bowl.
Spiral locking: The upper bowl clamp features a spiral locking mechanism that, when rotated, tightly engages with the positioning pin, creating a robust mechanical interlocking force to ensure a secure connection between the crossbar and upright post.
Reliable connection method: The self-locking feature of the wedge pin, combined with gravitational force, ensures a secure connection that is resistant to loosening.
Core connection function: Locks the coupler of horizontal or diagonal rods onto the connecting plate of the upright post. The pin is inserted through holes in both the coupler and the connecting plate, and its wedge-shaped design ensures that, under gravity or external force, it tightens progressively as it’s driven deeper, creating a secure and stable connection.
Vertically connect the two vertical posts, ensuring that the load is applied along the axis of the posts and effectively transferring the load from the upper post to the lower one.
Provides standardized connection points for all horizontal members, such as horizontal rods and diagonal braces.
Adjustment: By rotating the screw, the elevation at the top of the support frame can be precisely adjusted, ensuring the flatness of the formwork surface.
Material: Hot-dip galvanized Specifications: 140 x 140 x 600 mm, or customized to your requirements
Ordinary scaffolding can be transformed into various heights and configurations by stacking and combining, meeting the needs of large-scale high-altitude operations. Single-tower scaffolds typically can be erected up to around 12 meters, while modular scaffolding systems can be extended to over 20 meters.
We can undertake the design and customization of specialized frames for various aluminum profiles, as well as tailor-made accessories for aluminum profile frames.
Ordinary scaffolding can be transformed into various heights and configurations by stacking and combining, meeting the needs of large-scale high-altitude operations. Single-tower scaffolds typically can be erected up to around 12 meters, while modular scaffolding systems can be extended to over 20 meters.
We can undertake the design and customization of specialized frames for various aluminum profiles, as well as tailor-made accessories for aluminum profile frames.
Ordinary scaffolding can be transformed into various heights and configurations by stacking and combining, meeting the needs of large-scale high-altitude work. Single-tower scaffolds typically reach up to around 12 meters, while modular scaffolding systems can be erected to heights exceeding 20 meters.
We can undertake the design and customization of specialized aluminum profile frames, as well as tailor-made accessories for various aluminum profile frameworks.
Ordinary scaffolding can be transformed into various heights and configurations by stacking and combining, meeting the needs of large-scale high-altitude operations. Single-tower scaffolds typically reach up to around 12 meters, while modular scaffolding systems can be erected to heights exceeding 20 meters.
The main components are vertical and horizontal rods. The disc-lock node structure is ingeniously designed, enabling axial force transfer along the vertical rods. This ensures that the scaffolding boasts high structural strength and excellent overall stability in three-dimensional space, while also providing a reliable self-locking mechanism.
The main components are vertical and horizontal rods. The disc-lock node structure is ingeniously designed, enabling axial force transfer along the vertical rods. This ensures that the scaffolding boasts high structural strength and excellent overall stability in three-dimensional space, while also providing a reliable self-locking mechanism.
The main components are vertical and horizontal rods. The disc-lock node structure is ingeniously designed, enabling axial force transfer along the vertical rods. This ensures that the scaffolding boasts high structural strength and excellent overall stability in three-dimensional space, while also providing a reliable self-locking mechanism.