FAQ

A：Our product line is widely used in **FTTH (Fiber to the Home)**, **Trunk Line Construction**, **Data Center Maintenance**, and **CATV Network Repair**. We have specific models for everything from telecom-grade 6-motor trunk splicing to basic drop cable processing.

A：Perfect Compatibility: Ensures that cleavers and splicers are perfectly matched to your fiber types, minimizing splice loss. Cost Control: Bulk configurations offer more competitive pricing and significantly reduced logistics costs. Streamlined Support: All tools are backed by a single technical support team, making troubleshooting and maintenance much faster.

A：It refers to a comprehensive product supply covering the entire lifecycle of fiber construction. This includes **Fusion Splicers** (connection), **High-Precision Cleavers** (preparation), **OTDRs/Power Meters** (testing), and various **Strippers/Cleaning Tools** (maintenance). You get a complete solution without the need to manage multiple vendors.

A：Saves Space: Makes the tool slimmer and easier to fit into technician waist bags or compact toolkits. Prevents Snagging: Ensures the tool doesn't hook onto fiber patches or cables while being pulled out of a bag. Protects the Tool: Reduces tension on the internal spring during long-term storage, extending the tool's lifespan.

A：Reduced Evaporation: By keeping the clamp closed, the solvent-soaked cloth is less exposed to air, significantly slowing down the evaporation of alcohol. Consistent Saturation: It maintains a moist cleaning surface for a longer period, reducing the frequency of re-applying cleaning fluid.

A：Fiber optic connections are extremely sensitive to microscopic particles. The lock keeps the cleaning surfaces pressed together, which: Prevents Dust Accumulation:Keeps airborne debris from settling on the cleaning cloth. Avoids Accidental Contact: Prevents users from accidentally touching the cleaning area with oily fingers.

A：The locking mechanism was introduced to improve **cleanliness, portability, and chemical efficiency**. It ensures that the tool remains in a closed position when not in use, protecting both the cleaning material and the surrounding work environment.

A：Absolutely. In cold environments, fiber coatings become hard and brittle, making manual stripping prone to snapping the fiber. A thermal stripper’s built-in heating ensures a smooth stripping experience regardless of freezing temperatures.

A：Yes. After heating, the coating typically slides off as a single, clean tube with minimal residue. Compared to manual stripping, it significantly reduces the time spent cleaning the core with alcohol and ensures a higher first-time success rate, reducing rework.

A：No. The heating temperature is precisely controlled (usually between **100°C and 120°C**). This is enough to soften the resin coating but is far below the tolerance limit of the silica fiber, ensuring signal integrity is never compromised.

A：1. **Ribbon Fiber** splicing (it is an essential tool for this). 2. **Tight-buffer fiber** or fibers with specialized, hardened coatings. 3. **High-standard projects** (such as backbone construction or data centers) that require ultra-low loss and long-term stability.

A：Precision and safety. Manual strippers can cause microscopic longitudinal scratches that lead to fiber breakage over time. A thermal stripper softens the coating through heat, achieving "zero-stress" stripping and protecting the core from damage.