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Nanluzhuang Village, Majiawu Town, Renqiu City, Cangzhou City, Hebei Province, China
Bowl-lock scaffolding
Existing connector-type steel pipe scaffolding can be easily modified, significantly reducing the costs associated with upgrades and replacements.
Different load requirements call for flexible adjustments. All components of the cup-lock scaffolding system share uniform dimensions, ensuring that the erected scaffolds are standardized and highly organized.
The cup-lock system consists of components such as steel pipe uprights, crossbars, and cup-lock joints. Its basic structure and installation requirements are similar to those of hook-type steel tube scaffolding, with the main difference lying in the cup-lock joint itself.
The bowl-type joint consists of components such as the upper bowl buckle, lower bowl buckle, crossbar connector, and upper bowl-buckle positioning pin. The positioning pins of the lower and upper bowl buckles are welded onto the upright post, with the upper bowl buckle fitted over the post. The plugs are welded onto the crossbars and diagonal braces. During assembly, insert the crossbars and diagonal braces into the lower bowl buckle, then press down and rotate the upper bowl buckle before securing it in place using the positioning pin.
The bowl-lock joint features a rational structure: the load-transferring rods transfer force axially, giving the scaffolding as a whole high structural strength and excellent three-dimensional spatial stability, thereby meeting construction safety requirements.
It eliminates bolt operations, making it less likely for scattered parts to get lost. The components are lightweight yet robust, ensuring safe and reliable use. In general, rust does not affect assembly and disassembly processes; plus, they’re easy to maintain and convenient for transportation.
It can be retrofitted using existing coupler-type steel pipe scaffolding, significantly reducing the costs of upgrading and replacement.
It boasts high assembly and disassembly efficiency, reducing labor intensity. The assembly and disassembly speed is 3 to 5 times faster than that of hook-type scaffolding.
The bowl-lock joint features a rational structure: the load-transferring rods transfer force axially, giving the scaffolding as a whole high structural strength and excellent three-dimensional spatial stability, thereby meeting construction safety requirements.