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| Place of Origin | China |
| Brand Name | Hopda |
| Certification | ISO,CE |
| Model Number | JLK |
Rigid Frame Type Strander and Energy Recovery for Optimal Performance
Rigid Frame Type Strander Frame High Efficiency Power Saving
| Model(Rigid Strand Machine) | 630 | |
| Diameter of single wire (mm) | Copper | Φ1.5-5 |
| Aluminum | Φ1.5-5 | |
| Maxinum stranded conductorn OD. (mm) | Φ35-55 | |
Stranding Pitch (mm) |
6 Bobbin Stranding Cage | 51-896 |
| 12 Bobbin Stranding Cage | 51-896 | |
| 18 Bobbin Stranding Cage | 63-1056 | |
| 24 Bobbin Stranding Cage | 71-1246 | |
| 30 Bobbin Stranding Cage | 87-1553 | |
| Capstan | Capstan Wheel Diameter(mm) | 2000 |
| Maximum Haul-off Force(T) | 30 | |
| Bobbin Size | 630*475*127 | |
| Center Payoff Bobbin | 1600*800*80 | |
| Take-up Bobbin | 2500*1500*125 | |
| Maxinum Haul-off Linear Speed (m/min) | 69 | |
| Center Height (mm) | 1100 | |
Application:
The Rigid Stranding Machine is used for twisting and compacting the round or sector conductors, as well as pre-spiraling the split conductors.
Features of frame twisting machine:
1. It can achieve fast and automatic replacement of wire reels, with a replacement time of only about ten minutes, greatly reducing auxiliary time and manual investment, and improving production efficiency
2. Able to achieve unmanned operation and information management in the process from wire drawing machine to frame twisting machine, and practice intelligent manufacturing for your company
3. Significantly reduce the occupation of workspace by wire reels, save space, ensure neat and orderly wire reels, and improve the working environment
Product Description:
A rigid frame type stranding machine with a high efficiency power-saving feature is designed to maximize productivity while minimizing energy consumption. Here are some key characteristics of such a machine:
Efficient Mechanical Design: The machine's rigid frame is engineered to provide stability and minimize energy losses due to vibrations or unnecessary movements. The mechanical components, such as gears, bearings, and drive systems, are optimized for efficiency to reduce power consumption.
Power-Saving Drive System: The stranding machine may incorporate a power-saving drive system, such as variable frequency drives (VFDs) or servo motors. These systems allow for precise control of motor speed, acceleration, and deceleration, resulting in energy savings by avoiding unnecessary power consumption during idle or low-demand periods.
Energy Recovery Systems: Some advanced stranding machines employ energy recovery systems that capture and reuse energy generated during braking or deceleration phases. This recovered energy can be fed back into the machine or used to power auxiliary systems, further reducing overall energy consumption.
Intelligent Control System: The machine may feature an intelligent control system that optimizes the operating parameters based on real-time conditions. This includes adjusting motor speed, tension control, and other variables to minimize energy usage without compromising the stranding process.
Energy-Efficient Components: The stranding machine may incorporate energy-efficient components, such as low-friction bearings, efficient motors, and improved insulation materials. These components reduce energy losses and contribute to overall power savings.
Power Monitoring and Analysis: The machine may be equipped with power monitoring and analysis systems that provide real-time feedback on energy consumption. This enables operators to identify areas of high power usage and implement energy-saving measures accordingly.
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