GLL Aluminum Clutch Housing

    Automatic transmissions generate high temperatures when running at high speeds, under heavy loads, or when starting and stopping frequently. Traditional cast iron housings are prone to deformation or cracking due to thermal stress. GLL aluminum clutch housings achieve the following breakthroughs through high thermal conductivity aluminum alloy formula and bionic heat dissipation structure […]

GLL Snus cans

    GLL Snus cans are made of 6061-T6 aviation aluminum alloy, a material commonly used in the aerospace field that is both light and high-strength. Compared with traditional plastic cans, the pressure resistance of aluminum is increased by 300%. Even under frequent opening and closing or accidental squeezing, the can body can still maintain […]

GLL SUS304 stainless steel faucet

    Our GLL SUS304 stainless steel faucets use 304 medical grade stainless steel as the core material. Compared with traditional faucets, which are mostly made of copper or alloys and may release harmful heavy metals such as lead and cadmium due to corrosion over a long period of use, threatening water safety. Have the […]

GLL 304SS CNC Pneumatic Connector

    Our GLL 304 stainless steel pneumatic connecting tube (male and female connection) is a high-performance pipe component designed for industrial pneumatic systems. It is made of high-quality 304 stainless steel and combined with CNC precision processing technology to achieve fast and reliable connection between male and female heads. The product has the characteristics […]

GLL Exhaust Groove Pin Internal Thread Cylindrical Pin

    Our GLL Exhaust Groove Pin adopts innovative structural design: Perfect fusion of functionality and practicality. Patented exhaust groove design solves industry pain points: Traditional cylindrical pins are prone to loose assembly or seal failure due to gas stagnation under high pressure or high temperature. Our GLL Exhaust Groove Pin uses precision-machined spiral exhaust […]

GLL Customized CNC Machining Parts

    Our GLL has built a technology matrix with a five-axis linkage CNC machining center as the core, combining the Industrial Internet of Things (IIoT) and AI algorithms to achieve full-process intelligence from design to finished products: Compound processing capabilities: A single device integrates milling, drilling, tapping, surface processing and other functions, reducing the […]

GLL Scaffolding Formwork Clamp

    GLL Scaffolding Formwork Clamp adapts high-strength alloy steel and precision forging technology to ensure GLL clamp can maintain structural stability under extreme loads. Clamps’ surface is hot-dip galvanized, and its corrosion resistance is 300% higher than that of traditional products. Even in harsh environments such as humidity and saline-alkali, its service life can […]

GLL Aluminium Ringlock Scaffolding System

    Our GLL ringlock scaffolding system adapts high-strength 6082-T6 aluminum alloy as the core material, which is 40%-60% lighter than traditional steel scaffolding while maintaining the same load-bearing capacity (single pole load up to 50kN). It significantly reduces transportation costs and labor intensity, especially in high-rise buildings or complex terrain projects. In addition, the […]

GLL walking scaffolding metal frame

    GLL walking scaffolding metal frame adopts modular structure and can be assembled quickly without tools through patented snap-on system.Traditional scaffolding installation is labor-intensive and time-consuming, often requiring skilled workers. Our GLL modular frame can be assembled in just 30 minutes, reducing setup time by over 50%. And GLL modular frame’s adjustable height and […]

GLL butterfly wing nut

    Traditional nuts rely on tools for tightening, which is inefficient and poses safety hazards in narrow or high-altitude operations. Our GLL butterfly wing nut adopts a streamlined double-wing design. The ergonomic curved wing can fit the palm perfectly, and the operator can complete the tightening or removal with one hand without additional tools. […]