1. Separation design
The separation design inside PVC row trunking is one of the important optimizations to improve wiring efficiency. By setting partitions of different widths or heights, the internal space of the trunking can be divided into multiple independent small areas. The advantage of this is that different types of cables can be classified and managed. For example, the power line can be separated from the signal line to prevent the electromagnetic interference generated by the power line from affecting signal transmission. At the same time, for cables of different voltage levels, the separation design can also be used to return them to their respective positions, which is convenient for later maintenance and repair. When a certain type of cable needs to be added or replaced, the staff can quickly locate the corresponding area without having to search in the messy cables, which greatly improves work efficiency.
2. Guide groove and positioning structure
Setting guide grooves and positioning structures inside PVC row trunking is also an effective optimization method. The guide groove can guide the cable to be laid in a predetermined direction to prevent the cable from twisting or crossing at will in the groove. The positioning structure can fix the position of the cable, especially when the trunking turns or has a certain slope. This helps to keep the cables neatly arranged and make full use of the internal space of the trunking. For example, in some scenarios where high-density wiring is required, the guide groove and positioning structure can ensure that each cable is in the right position, avoid mutual squeezing between cables, improve the capacity of the cable trunking, and thus improve the wiring efficiency.
3. Smooth inner wall and rounded corners
The smooth inner wall and rounded corners inside the PVC row trunking help improve the wiring efficiency. The smooth inner wall can reduce the friction of the cable during the laying process, so that the cable can be pulled into the cable trunking more smoothly. Compared with the cable trunking with rough inner walls, this can save a lot of manpower and time costs. The rounded corners prevent the cable from being scratched by sharp edges at the corners, reducing the risk of damage to the cable sheath. This not only improves the convenience of operation during the wiring process, but also helps to extend the service life of the cable, reduce the possibility of rewiring due to cable damage, and indirectly improve the wiring efficiency.
4. Multi-layer structure design
The multi-layer structure of the PVC row trunking design can greatly improve the wiring efficiency. This type of cable trunking has multiple layers inside, and each layer can be used independently for cable wiring of different functions or types. For example, the upper layer can be used to lay signal cables, the middle layer for power cables, and the lower layer for special cables such as optical fibers. The multi-layer structure can make full use of the vertical space of the trunking and accommodate more cables in a limited horizontal space. Moreover, different layers are isolated from each other to avoid mutual interference between different types of cables. In the wiring of large buildings or complex electrical systems, the multi-layer structure of the trunking can flexibly adjust the use of each layer according to the needs of different areas, achieving efficient and orderly wiring layout.
