The bracket B pipe stand is a device used to support and fix pipelines, usually consisting of two parts: horizontal beams and vertical pillars, with a shape similar to the English letter "T". Horizontal beams are used to support pipelines, while vertical pillars are used to fix them to walls, floors, or other structures. The design of the pipe bracket fully considers the bearing capacity and stability of the pipeline, which can effectively prevent deformation and damage caused by uneven stress on the pipeline.
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Petrochemical plants rely on pipelines to carry crude oil, chemicals, and natural gas—any sagging or instability can cause leaks, leading to environmental hazards and production shutdowns. This bracket solves this by distributing weight evenly across horizontal beams and vertical pillars. For outdoor pipelines (e.g., 8-inch diameter steel pipes carrying gasoline), the metal variant’s high load-bearing capacity (up to 800kg) prevents sagging, even over 5-meter spans. Its corrosion-resistant coating also withstands chemical spills and saltwater exposure in coastal refineries.
Power stations require stable support for cable trays and bus ducts, which often run along walls and ceilings. The bracket’s vertical pillars feature pre-drilled holes for easy anchoring to concrete or steel structures, ensuring stability even during equipment vibrations (e.g., from generators). The adjustable height (26cm to 50cm) is ideal for matching duct heights—for example, lowering the bracket to 30cm to fit under low-ceilinged control rooms or raising it to 50cm for overhead cable trays.
In commercial buildings (e.g., malls, hospitals), the bracket supports water supply, drainage, and HVAC pipes. For indoor use, the plastic variant is lightweight (3kg) and easy to install, making it suitable for ceiling-mounted AC pipes (reducing structural load). For floor-mounted drainage pipes (e.g., 6-inch diameter), the fixed metal bracket provides long-term stability, preventing shifts that could cause blockages. Its “T-shaped” design also simplifies alignment with wall studs, cutting installation time by 30% compared to generic brackets.
The bracket’s “T-shaped” structure (horizontal beam + vertical pillar) is engineered for optimal weight distribution. The horizontal beam features a curved groove (matching pipe diameters from 2 inches to 12 inches) that cradle pipes, preventing slippage. The pillar is reinforced with a triangular support plate at the base, increasing stability by 50% compared to straight pillars. Unlike L-shaped brackets, it doesn’t put stress on pipe joints, extending the life of piping systems by reducing wear.
• Metal Brackets: Made from galvanized steel, they offer high load-bearing capacity (up to 800kg) and durability. Ideal for outdoor or heavy-duty use (e.g., petrochemical pipelines), they resist impact and rust, with a service life of 10+ years.
• Plastic Brackets: Crafted from food-grade PVC, they are lightweight (2–3kg) and corrosion-resistant. Suitable for indoor use (e.g., building water supply pipes), they don’t conduct electricity, adding safety in electrical rooms.
• Composite Material Brackets: Blend of fiberglass and resin, combining metal’s strength (500kg capacity) and plastic’s corrosion resistance. Perfect for coastal buildings or chemical plants, they are also cost-effective—30% cheaper than metal brackets for large orders.
Fixed brackets have a one-piece design, simple to install and low-cost. They are ideal for permanent pipe layouts (e.g., factory production line pipes) where positions won’t change. Adjustable brackets use a telescopic pillar with locking pins, allowing height tweaks (26cm to 50cm) post-installation. This is useful for renovation projects—for example, raising the bracket by 10cm to accommodate new insulation around pipes without reinstalling the entire system.
Before delivery, our engineers review clients’ pipeline blueprints to confirm bracket placement, quantity, and material. For example, if a client’s power station blueprint shows cable trays running along curved walls, we recommend angled bracket variants to ensure alignment. We also calculate load distribution (e.g., how many brackets are needed for a 10-meter pipe) to prevent overloading, avoiding future failures.
We offer payment options tailored to order size: T/T 30% deposit + 70% before shipment for bulk orders (100+ brackets), or 100% advance for small quantities. Delivery terms include EXW, FOB, CFR, and CIF—for example, FOB Shanghai for clients arranging their own shipping, or CIF Rotterdam for turnkey logistics. Lead time is 10–30 days, with expedited production (7 days) available for emergency projects (e.g., post-storm pipe repairs).
We accept OEM orders, including custom colors (e.g., matching a client’s brand blue) and laser-engraved logos for fleet management. For ODM projects (e.g., a client needing a bracket with integrated cable clips), we develop prototypes in 14 days. Quality control includes 10% bulk testing: metal brackets undergo load tests, plastic brackets are checked for UV resistance, and composites are tested for chemical tolerance. A 2-year warranty covers metal brackets, and 1-year for plastic/composite variants.
Petrochemical plants rely on pipelines to carry crude oil, chemicals, and natural gas—any sagging or instability can cause leaks, leading to environmental hazards and production shutdowns. This bracket solves this by distributing weight evenly across horizontal beams and vertical pillars. For outdoor pipelines (e.g., 8-inch diameter steel pipes carrying gasoline), the metal variant’s high load-bearing capacity (up to 800kg) prevents sagging, even over 5-meter spans. Its corrosion-resistant coating also withstands chemical spills and saltwater exposure in coastal refineries.
Power stations require stable support for cable trays and bus ducts, which often run along walls and ceilings. The bracket’s vertical pillars feature pre-drilled holes for easy anchoring to concrete or steel structures, ensuring stability even during equipment vibrations (e.g., from generators). The adjustable height (26cm to 50cm) is ideal for matching duct heights—for example, lowering the bracket to 30cm to fit under low-ceilinged control rooms or raising it to 50cm for overhead cable trays.
In commercial buildings (e.g., malls, hospitals), the bracket supports water supply, drainage, and HVAC pipes. For indoor use, the plastic variant is lightweight (3kg) and easy to install, making it suitable for ceiling-mounted AC pipes (reducing structural load). For floor-mounted drainage pipes (e.g., 6-inch diameter), the fixed metal bracket provides long-term stability, preventing shifts that could cause blockages. Its “T-shaped” design also simplifies alignment with wall studs, cutting installation time by 30% compared to generic brackets.
The bracket’s “T-shaped” structure (horizontal beam + vertical pillar) is engineered for optimal weight distribution. The horizontal beam features a curved groove (matching pipe diameters from 2 inches to 12 inches) that cradle pipes, preventing slippage. The pillar is reinforced with a triangular support plate at the base, increasing stability by 50% compared to straight pillars. Unlike L-shaped brackets, it doesn’t put stress on pipe joints, extending the life of piping systems by reducing wear.
• Metal Brackets: Made from galvanized steel, they offer high load-bearing capacity (up to 800kg) and durability. Ideal for outdoor or heavy-duty use (e.g., petrochemical pipelines), they resist impact and rust, with a service life of 10+ years.
• Plastic Brackets: Crafted from food-grade PVC, they are lightweight (2–3kg) and corrosion-resistant. Suitable for indoor use (e.g., building water supply pipes), they don’t conduct electricity, adding safety in electrical rooms.
• Composite Material Brackets: Blend of fiberglass and resin, combining metal’s strength (500kg capacity) and plastic’s corrosion resistance. Perfect for coastal buildings or chemical plants, they are also cost-effective—30% cheaper than metal brackets for large orders.
Fixed brackets have a one-piece design, simple to install and low-cost. They are ideal for permanent pipe layouts (e.g., factory production line pipes) where positions won’t change. Adjustable brackets use a telescopic pillar with locking pins, allowing height tweaks (26cm to 50cm) post-installation. This is useful for renovation projects—for example, raising the bracket by 10cm to accommodate new insulation around pipes without reinstalling the entire system.
Before delivery, our engineers review clients’ pipeline blueprints to confirm bracket placement, quantity, and material. For example, if a client’s power station blueprint shows cable trays running along curved walls, we recommend angled bracket variants to ensure alignment. We also calculate load distribution (e.g., how many brackets are needed for a 10-meter pipe) to prevent overloading, avoiding future failures.
We offer payment options tailored to order size: T/T 30% deposit + 70% before shipment for bulk orders (100+ brackets), or 100% advance for small quantities. Delivery terms include EXW, FOB, CFR, and CIF—for example, FOB Shanghai for clients arranging their own shipping, or CIF Rotterdam for turnkey logistics. Lead time is 10–30 days, with expedited production (7 days) available for emergency projects (e.g., post-storm pipe repairs).
We accept OEM orders, including custom colors (e.g., matching a client’s brand blue) and laser-engraved logos for fleet management. For ODM projects (e.g., a client needing a bracket with integrated cable clips), we develop prototypes in 14 days. Quality control includes 10% bulk testing: metal brackets undergo load tests, plastic brackets are checked for UV resistance, and composites are tested for chemical tolerance. A 2-year warranty covers metal brackets, and 1-year for plastic/composite variants.