Type (N)TSCGEWÖU – FO (LWL) Mining Trailing & Reeling Cable
This cable is designed for the connection of electrical equipment,
large material handling machines such as excavators, cranes, and
dumpers in mining and tunnelling applications, providing both power
and data transmission capabilities.
It is suitable for use in flexible reeling applications, festoon
systems, and container cranes, where the flexible cable design
allows for movement of the equipment during operation.
Cross Section (mm2) | Overall Diameter Min. – Max. (mm) | Approximate Weight (kg / km) |
---|
3 x 25 + 2 x 25 / 2 + FO | 42.2 – 45.2 | 2660 |
3 x 25 + 2 x 50 / 2 + FO | 45.0 – 48.0 | 2990 |
3 x 35 + 2 x 25 / 2 + FO | 43.8 – 46.8 | 3050 |
3 x 35 + 2 x 50 / 2 + FO | 45.9 – 48.9 | 3400 |
3 x 50 + 2 x 25 / 2 + FO | 45.1 – 48.1 | 3540 |
3 x 50 + 2 x 50 / 2 + FO | 48.8 – 51.8 | 4070 |
3 x 70 + 2 x 35 / 2 + FO | 48.8 – 51.8 | 4480 |
3 x 70 + 2 x 50 / 2 + FO | 52.5 – 56.5 | 4840 |
3 x 95 + 2 x 50 / 2 + FO | 54.3 – 58.3 | 5800 |
3 x 120 + 2 x 70 / 2 + FO | 58.2 – 62.2 | 7010 |
3 x 150 + 2 x 70 / 2 + FO | 62.4 – 66.4 | 8210 |
3 x 185 + 2 x 95 / 2 + FO | 67.8 – 71.8 | 9920 |
3 x 240 + 2 x 120 / 2 + FO | 74.4 – 78.4 | 12530 |
3 x 300 + 2 x 150 / 2 + FO | 80.6 – 85.6 | 15330 |
• Conductor: Features electrolytic, stranded, tinned copper wire
DIN VDE 0295 Class 5.
• Insulation: Utilizes 3GI3 type EPR Compound for effective
insulation.
• Electrical Field Control: Incorporates inner and outer
semiconductive layers of semiconductive rubber for enhanced
electrical field control.
• Protective-Earth Conductor: Consists of tinned copper conductor
with a semiconductive layer.
• Optical Fiber: Features fiber core diameter options of 9 μm, 62.5
μm, or 50 μm, with a diameter over cladding of 125 μm and over
coating of 250 μm. Designs with up to 24 fibers are available.
• Fiber Coding: Utilizes color coding of the fibers and buffering
tube for easy identification of the fiber type.
• Fiber Covering: Hollow core with filling compound, basic material
ETFE, for protection.
• Arrangement of Fiber Cores: Six cores in one layer, specially
laid-up around the central support element.
• Lay Up: Three main conductors laid-up with two control cores and
fiber optic element in the outer interstice for optimal
configuration.
• Inner Sheath: Special EPR compound better than GM1b type,
providing superior protection.
• Reinforcement: Embedded braid made of anti-torsion synthetic
threads for added strength.
• Outer Sheath: Utilizes 5GM5 type elastomer compound in red for
durable protection against environmental factors.
Specifications:
• Rated Voltage: 3.6/6, 6/10, 8.7/15, 12/20, 18/30
• AC Test Voltage: 11, 17, 24, 29, 43
• Max. Operating AC Voltage: 4.2/7.2, 6.9/12, 10.4/18, 13.9/24,
20.8/36
• Max. Operating DC Voltage: 5.4/10.8, 9/18, 13.5/27, 18/36, 27/54
• Min Bending Radius:
• Current Carrying Capacity: According to DIN VDE 0298 part 3,
According to DIN VDE 0298, Part 4
• Working Temperature:
• Fixed: -40ºC to +80ºC
• Mobile: -30ºC to +80ºC
• Max. Tensile Load of Cable: 20 N/mm²
• Max. Torsion: ±25º/m
• Travel Speed: Up to 200 m/min horizontally
• Minimum Distance for Change of Direction: 20 X D
This cable is engineered to meet the demanding requirements of
mining and tunnelling applications, providing reliable power and
data transmission while maintaining flexibility and durability in
dynamic environments.
![NSHTÖU-SM Heavy-Duty Cable 600/1kV Designed To Withstand Frequent Reeling And Unreeling For Mobile Equipment Conveyors 2](http://img.everychina.com/nimg/b3/c2/df7816194c1b1e5c8804ea350420.jpg)
Note: This is just part of the standard parameters of our products.
Please contact our Engineer if you need more. And the information
contained within this webpage is for guidance only and is subject
to change without notice or liability. All dimensions and
specifications are nominal and are subject to normal manufacturing
tolerances. All pictures shown are for illustration purposes only.
The actual product may vary. All the information is provided in
good faith and is believed to be correct at the time of
publication.