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High Strength Cable Mesh Sock Joints for Flexible and Reliable Splices in Power Cable Applications
Item number
Model
Applicable
Cable Diameter
(mm)
Rated Load
(KN)
Weight
(kg)
21361
SWL-16
Φ12-16
10
0.8
21362
SWL-20
Φ16-20
10
0.8
21363
SWL-25
Φ20-25
15
1.0
21364
SWL-37
Φ25-37
15
1.0
21365
SWL-50
Φ37-50
15
1.0
21366`
SWL-60
Φ50-60
25
2.4
21367
SWL-80
Φ60-80
25
2.4
21368
SWL-100
Φ80-100
25
2.4
21369
SWL-120
Φ100-120
30
2.6
21370
SWL-150
Φ120-150
30
2.6
In the critical infrastructure of power distribution, the integrity of every cable splice is a cornerstone of system reliability. Cable Mesh Sock Joints provide a superior, flexible solution for creating robust and permanent connections in a wide array of power cable applications. Utilizing an advanced woven mesh design, these joints form a seamless, high-conductivity bridge between cable ends, outperforming traditional rigid connectors. They are specifically engineered to meet the challenges of underground installations, substation connections, and industrial power feeds, where vibration, thermal cycling, and mechanical stress are constant concerns. Our Cable Mesh Sock Joints are synonymous with durability, ease of installation, and long-term performance, offering a dependable solution for utility crews, electrical contractors, and maintenance teams who cannot afford downtime.
Superior Flexibility for Dynamic Environments: The unique mesh sleeve design allows the joint to flex and bend with the cable itself. This flexibility is crucial for accommodating ground settlement, thermal expansion and contraction, and other mechanical movements that can cause rigid splices to fail. By moving with the cable, the mesh sock joint eliminates stress concentration points, ensuring the connection remains intact and reliable over its entire service life.
Excellent Vibration and Stress Absorption: Cables are subject to various vibrations from nearby machinery, traffic, or electrical forces. The flexible nature of the mesh sock acts as a damper, absorbing these vibrations and preventing them from transferring to the critical connection point. This significantly reduces the risk of fatigue and work hardening of the conductor strands, which are common causes of failure in stiff splicing systems.
Rapid and Tool Based Installation: Installation is a straightforward process that ensures consistency and reliability. The mesh sleeve is placed over the prepared cable ends and uniformly compressed using a calibrated hydraulic tool. This method is significantly faster than installing multiple bolted clamps or conducting a solder joint, leading to reduced labor costs and shorter project timelines, especially valuable in emergency repair situations.
Uniform 360 Degree Compression for Optimal Contact: The compression process creates a gas tight, high pressure connection around the entire circumference of the conductor. This 360 degree grip ensures a massive surface area of contact between the joint and the cable, resulting in an extremely low electrical resistance connection that minimizes voltage drop and heat generation at the splice.
Exceptional Mechanical Strength and Durability: Once compressed, the mesh sock and cable become a single, monolithic unit. The mechanical strength of this connection is exceptionally high, often exceeding the tensile strength of the cable itself. Manufactured from high quality, corrosion resistant materials like aluminum or copper alloy, these joints are built to last for decades, even in direct burial or damp environments.
Ideal for Confined and Difficult Spaces: The relatively compact and flexible profile of the finished splice makes it ideal for use in congested cable trenches, tight utility vaults, or within compact substation equipment where space is at a premium and rigid, bulky connectors would be impossible to install properly.
Versatility Across Cable Types and Applications: This solution is highly adaptable, suitable for splicing both copper and aluminum conductors of various sizes. They are perfectly suited for a wide range of tasks, from permanent mainline splices in underground distribution networks to repairs and jumper connections in industrial facilities, providing a universal and reliable splicing method.
Enhanced Safety and Reduced Maintenance: The robust, gas-tight connection is highly resistant to environmental degradation, moisture ingress, and corrosion. This inherent reliability minimizes the risk of hot spots, faults, and subsequent failures, enhancing overall system safety. The result is a truly maintenance free splice that reduces the total cost of ownership over the lifespan of the cable system.
By selecting our Cable Mesh Sock Joints, you are investing in a proven technology that maximizes the reliability and longevity of your power cable infrastructure, ensuring safe and continuous operation for years to come.
Suntech Power Group is one of the largest Procurement, Engineering & Contracting Group companies in China.Our group branch company and factory have already engaged
in the field of electric power more than 26 years.
1.Steel structure industry especially steel towers and related pr... Suntech Power Group is one of the largest Procurement, Engineering & Contracting Group companies in China.Our group branch company and factory have already engaged
in the field of electric power more than 26 years.
1.Steel structure industry especially steel towers and related pr...
