- On site installation with less use of tools or no need for special tools
- Easy and fast operation
- Can make fiber optic connectors of any length
- No need for any bonding and polishing process
- No need for fiber optic fusion, saving power
- Can be repeatedly installed more than 300 times
- 1. Applicable optical cable: 2.0 × 3.0mm butterfly optical cable;
- 2. Coating diameter: 250 μ M;
- 3. Metal V-groove;
- 4. Tensile strength: ≥ 40N;
- 5. Product length: 56.6mm.
- 1. Double V-groove structure design ensures stable and reliable fiber optic docking
- 2. Core structure: Adopting a normally closed elastic fastening method, with excellent technical indicators;
- 3. Linkage structure design, with reserved slight bends remaining unchanged when docking with equipment and joints;
- 4. Applicable optical cable: 2.0*3.0mm, 2.0*1.6mm butterfly optical cable;
- 5. Coating diameter: 250μm;
- 6. Tensile strength: ≥ 30N;
- 7. Product length: 52mm.
- 1. Metal V-groove design, high fiber docking accuracy, and excellent technical indicators;
- 2. Core structure: Adopting a box masonry structure design, with good sealing performance, less loss of matching fluid, and strong weather resistance;
- 3. Applicable optical cable: 2.0mm × 3.0mm butterfly optical cable;
- 4. Tensile strength: > 40N/2min;
- 5. Easy to operate, fast construction speed, high installation success rate, long service life, and simple and convenient maintenance in the later stage.
- 6. Product size: 49.7*8.9*8.2mm, small product size, suitable for narrow space environments;
- 1. Applicable optical cable: 2.0 × 3.0mm, 2.0 × 1.6mm butterfly optical cable;
- 2. Coating diameter: 250 μ M;
- 3. Tensile strength: ≥ 30N;
- 4. Product length: 60mm.
- 1. Applicable optical cable: 2.0 × 3.0mm, 2.0 × 1.6mm butterfly optical cable Ф 2.0mm Ф 3.0mm yellow cable, Ф 0.9mm invisible optical cable;
- 2. Coating diameter: 250 μ m. 900 μ M;
- 3. Metal V-groove;
- 4. Tensile strength: 2.0* 3.0mm, 2.0* 1.6mm butterfly optical cable Ф 2.0mm Ф 3.0mm yellow cable ≥ 30N, Ф 0.9mm invisible optical cable ≥ 5N;
- 5. Product length: 53.5mm (excluding soft tail length)
- 1. Applicable optical cable: 2.0 *3.0mm butterfly optical cable;
- 2. Coating diameter: 250 μ M;
- 3. Metal V-groove;
- 4. Tensile strength: ≥ 40N;
- 5. Product length: 53mm.
- 6. Metal V-groove design, high fiber docking accuracy, and excellent technical indicators;
- 7. Core structure: Adopting a box masonry structure design, with good sealing performance, less loss of matching fluid, and strong weather resistance;
- 1. Spiral type, suitable for optical cable: 2.0 * 3.0mm, 2.0 * 1.6mm butterfly optical cable Ф 2.0mm Ф 3.0mm yellow cable, Ф 0.9mm invisible optical cable;
- 2. Coating diameter: 250 μ m. 900 μ M;
- 3. Tensile strength: 2.0* 3.0mm, 2.0*1.6mm butterfly optical cable Ф 2.0mm Ф 3.0mm yellow cable ≥ 30N, Ф 0.9mm invisible optical cable ≥ 5N;
- 4. Product length: 40mm
- 1. Applicable optical cable: 2.0 × 3.0mm butterfly optical cable;
- 2. Coating diameter: 250 μ M;
- 3. Tensile strength: ≥ 30N;
- 4. Product length: 50mm;
- 5. The product has a small volume and is suitable for narrow construction environments.
Butterfly optical cable stripper (Free gift)
Two in one toolbar (Free gift)
Fiber optic cutting knife (paid purchase)
The design principle of a fast connector is to cut the bare optical fiber through a professional fiber cutting knife at a fixed length to obtain a neat fiber end face. Then, the bare optical fiber is inserted into a high-precision V-shaped groove, and a high-precision ceramic insert is introduced to seamlessly connect with the pre embedded finished bare optical fiber, achieving physical hard connection. Then, the tail bare fiber and outer skin are fixed in three layers, and a slightly bent bare fiber is reserved to ensure thermal expansion and contraction The internal length change caused by tensile force changes is elastically fixed to the bare fiber and coating layer through a metal U-shaped clamp spring, which is not sensitive to temperature changes and ensures that the optical performance does not change under high and low temperature conditions. The three-layer fastening method of tightening the bare fiber, coating layer, and optical cable sheath, with a tensile resistance of up to 50N/10 minutes, ensures high stability, low attenuation, and high efficiency in various application scenarios.