PVC Honeycomb Conduit

These multi-channel cellular PVC pipes are engineered to deliver notable crush resistance, effective resistance to chemicals, and orderly wire arrangement. Being lightweight, the conduits facilitate straightforward installation while ensuring durable safeguarding of fiber-optic and low-voltage cable systems in subterranean environments. They have gained broad adoption in multiple international markets, such as those in Asia, the Middle East, and South America.

Feature:

1.Superior Compression Resistance: The design of cellular core PVC pipes allows for effective dispersion of pressure, thus exhibiting remarkable compression resistance.

2.Convenient and High-Efficiency Construction: Thanks to their lightweight nature and the adoption of socket-and-spigot joints, these pipes can be installed in a simple and dependable manner.

3.Zoned Management Capability: The design of cellular core PVC pipes not only saves space but also prevents cables from getting entangled, thereby making maintenance work easier to carry out.

4.Strong Corrosion Resistance: These pipes are resistant to corrosion caused by acids, alkalis, and other chemicals. This property ensures that they can have a long service life when buried underground.

5.Good Insulation and Flame Retardancy: They are appropriate for protecting fiber optics and cables, as they can prevent electrical leakage and reduce the risk of fire hazards.

Product parameters

Applications:

1.Telecommunication:

Optical fiber duct systems:

Multi-channel PVC pipes are especially suitable for use as inner ducts in optical communication cables. They can effectively separate different lines, thereby reducing signal interference to a minimum.

2.Low-voltage wiring protection:

These conduits also play a role in protecting broadband, telephone lines, and other low-voltage signal transmission systems.

Applications in Electrical Infrastructure:

3.Power cable protection:

PVC Honeycomb Conduits are applied in the installation of electrical cables. They act as an efficient substitute for traditional single-hole piping solutions.