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Lightweight PVC conduit is a modified rigid PVC low-voltage protection conduit with a thin-walled, lightweight structure. It is designed for indoor low-voltage fine wiring and outdoor light-load shallow burial and other light-work conditions. It features extreme lightweight, small diameter, and easy construction, while retaining the core insulation and anti-interference characteristics of low-voltage laying. It is an economical and efficient basic wiring conduit for low-voltage light-work scenarios.
1. Modified rigid PVC substrate, thin-walled and lightweight solid-wall structure, significantly reducing raw material usage and achieving extreme lightweighting;
2. Primarily small to medium diameter (DN16~DN75), suitable for confined indoor wiring spaces, with precise tube dimensions;
3. Equipped with adhesive/simple snap-fit connections, eliminating the need for heavy-duty sealing accessories, meeting the needs of quick installation in light-duty environments;
4. Ultra-smooth, burr-free inner wall, designed specifically for thin and low-voltage cables, with a simple and easy-to-clean outer wall and no additional reinforcement structure;
5. Can be bent at small angles, easy to cut, and can be handled with one hand, suitable for complex indoor wiring routes and light-duty shallow-buried trenches outdoors;
6. Contains basic moisture-resistant and anti-aging additives, meeting basic protection requirements for both indoor normal environments and light-duty outdoor conditions.
1. Electrical Insulation Meets Standards: Dielectric strength and volume resistivity meet the requirements for low-voltage cable laying, effectively isolating stray currents indoors and electromagnetic interference from outdoor light-load conditions, avoiding crosstalk and attenuation of low-voltage signals;
2. Mechanical Performance Adaptability for Light-Load Conditions: Ring stiffness reaches SN2~SN4, withstanding minor impacts during indoor construction and slight soil compression during light-load shallow burial outdoors without deformation or damage, meeting the protection requirements for light-load conditions;
3. Temperature and Weather Resistance for Foundation Adaptability: Operating temperature -5℃~70℃, suitable for indoor normal temperature environments and outdoor non-sun-exposed light-load areas. Indoors, it is resistant to moisture and mold; outdoors, it is resistant to mild corrosion from ordinary soil during light burial;
4. Excellent Cable Protection: High inner wall smoothness minimizes resistance when threading thin low-voltage cables such as network cables and monitoring cables, eliminating the risk of scratches and effectively protecting the cable's outer sheath and insulation layer;
5. Foundation Sealing and Dustproofing: Adhesive/ The snap-fit connection provides a basic seal, preventing indoor dust, minor wall seepage, and shallowly buried outdoor sand from entering the conduit, thus delaying cable aging.
6. Excellent structural stability: No creep or shrinkage at room temperature, and minimal springback after cold bending, suitable for standardized wiring requirements in indoor ceilings and concealed wall grooves.
1. Extremely lightweight, effortless installation: The conduit's weight is significantly lower than ordinary PVC data conduits, allowing for easy one-handed handling and installation without auxiliary tools, greatly reducing labor costs.
2. Highly efficient installation: Thin walls are easy to cut, and adhesive/snap-fit connections are achieved in one step, requiring no professional equipment or training. Installation can be carried out simultaneously with interior decoration and plumbing/electrical work, meeting rapid wiring needs.
3. Lower cost, exceptional value: The thin-walled structure reduces material consumption, resulting in a significantly lower cost per meter compared to ordinary/high-strength PVC.
4. Precise Fit for Confined Spaces: The narrow diameter design perfectly fits confined spaces such as wall recesses, ceiling gaps, and corners of electrical wiring shafts, solving the space constraints of large-diameter conduits for indoor wiring.
5. Flexible Applications, Multi-Purpose: Suitable for all indoor low-voltage wiring scenarios, and also adaptable to light-load, shallow-buried conditions in outdoor green spaces and courtyards, eliminating the need for separate conduit selection for different applications.
6. Convenient Maintenance: The lightweight conduit is easy to disassemble, and the smooth inner wall facilitates cable pulling and replacement. Indoor low-voltage maintenance and expansion are simple, requiring no large-scale dismantling or modification.
1. Residential Indoor Wiring: Network cables, cable TV cables, and security monitoring cables for home decoration/furnishing apartments, concealed installation in beams, walls, ceilings/floors; branching of thin cables from the low-voltage box to each room; core conduit material for low-voltage system upgrades in home decoration.
2. Office/Commercial Indoor Light Wiring: Network/telephone lines installed in office partition walls and ceilings; simple low-voltage wiring in small shops, convenience stores, and milk tea shops.
3. Public Building Indoor Thin Cable Installation: Concealed installation of monitoring lines, call system lines/broadcast lines in hotel rooms, hospital wards, and school classrooms; suitable for refined indoor low-voltage layouts.
4. Outdoor Light-Load Shallow Burial Installation: Light-load shallow burial of monitoring/broadcast lines in community green spaces, villa courtyards, and park green belts; shallow burial of low-voltage conduits in new rural courtyards; shallow burial of thin low-voltage cables in non-vehicle traffic areas of industrial parks.
5. Temporary Low-Voltage Installation: Temporary fiber optic cables/broadcast lines for construction site temporary offices, exhibition booths, and event venues. Network cable cabling is quick to install, easy to disassemble, and recyclable after use;
6. Low-voltage branch conduit cabling: connecting the main low-voltage conduit in municipal and park systems to the fine cable branches in buildings/equipment, and classifying and routing cables in indoor low-voltage wells to achieve refined branching of the low-voltage network.
