ক box beam roll forming machine is equipment used to form sheet metal or coils into box beam structures with a hollow rectangular cross-section. This versatile roll former produces lightweight box beams for uses ranging from structural frames to furniture designs.

Overview of Box Beam Roll Forming Machine

Box beams provide higher load capacity and greater structural rigidity compared to other beam types like I-beams. Key features:

• Equipment type: Continuous production roll forming machine
• Forming method: Incremental bending of sheet or coil through a series of roller dies
• Key components: Uncoiler, feed mechanism, forming rollers, cutoff device
• Main parameters: Material type/thickness, beam height and width, production speed
• Output: Hollow box beam lengths cut to specified size
• Applications: Structural sections,trailers, conveyors, scaffolds, mechanical parts

Types of Box Beam Roll Forming Machines

Box Beam Roll Forming Machine Working Process

The roll forming process gradually forms a flat strip into a box-shaped hollow beam by progressive bending as it passes through a series of roller stations.

• Sheet or coil material loaded onto powered uncoiler
• Feed mechanism pulls strip through machine
• Forming rollers incrementally bend strip at each station
• Cutoff device shears finished beams to required length
• Formed box beams exit machine for downstream processes

Precisely aligned rollers, optimized roller contours and programmed synchronization result in beams with consistent quality and dimensional accuracy.

Key Components

Material Feeding

• Decoiler or uncoiler – rotates coil for smooth, kink-free strip release
• Sheet stacker – for box beams from individual sheets
• Feed mechanism – pinch rollers or caterpillar drives feeding into process
• Entry guides – support and straighten strip before forming
• Feed table – roller table for supporting long strip lengths

Profile Forming

• Forming stations – 5-16 stations for gradual bending
• Upper and lower rollers – progressively form flat strip into box
• Horizontal, vertical & inclined rollers
• Quick change forming heads – for profile adjustments
• Roller contour programming – for precision bending

Beam Cutoff and Exit

• Cut to length device – Flying cutoff shear/saw for accurate cuts
• Length measuring system – encoder or photocell based
• Exit tables – roller supports for finished beams
• Stacker – collects cut beams for bundling

Machine Frame and Drives

• Robust welded frame – maintains component alignment
• Geared AC motor drives – adjust production speed
• Touchscreen HMI and PLC controls – for programmed automation

Safety Equipment

• Emergency stop buttons – for instant shutdown
• Limit switches, sensors – detect errors
• Safety fences, barriers – prevent access during operation
• Status indicator lights – show operational states

Forming Features

Precision Roll Forming

Programmable roll contours and sequencing enables production of box beams with reliable dimensional accuracy and repetitive precision. Quick change cassette-style tooling allows fast profile adjustments.

Flexible Manufacturing

By adjusting only a few components, the same machine can produce box beams of various sizes, thicknesses and materials. Further customization for specialized beams is also possible.

Single Operator

Fully automated operation after initial setup only needs one person for loading material and monitoring. Touchscreen controls enable easy parameter entry.

Secondary Operations

Additional punching, slotting, embossing, hole drilling, notching and marking units can be integrated for beams with modifications. Powder coating equipment can also be attached.

Suppliers and Costs

• Prices vary by speed, size and features
• Average cost: $125,000
• Local vendors offer operational/maintenance services

Installation and Operation

• Install per manufacturer documentation
• 3-4 days installation duration typical
• Operator training recommended

Maintenance

Choosing a Reliable Supplier

Pros and Cons

Advantages

• Higher load capacities than open beams
• Increased strength-to-weight ratio
• Resists twisting and buckling forces
• Versatile sizing for wide ranging uses
• Hollow inside permits passing cables/fluids
• Lightweight compared to solid beams
• Smooth surfaces allow easy finishing

Limitations

• Beam height restrictions due to forming roller diameter limits
• Not recommended for tension components
• Expansion/contraction considerations for long exposed beams
• Limited suppliers compared to standard sections
• Higher cost than hot-rolled steel beams

FAQ

What materials can be used to manufacture box beams?

Common materials include mild steel, stainless steel, and aluminum. Galvanized steel and pre-painted coils are also suitable for corrosion resistance.

What industries utilize box beam roll formed sections?

Major applications are in construction, infrastructure, warehouses, conveyors, cranes, and customized machine structures. Box beams are also popular in truck and trailer frames.

What determines the load capacity of a box beam?

Key factors are material grade, metal thickness, height and width dimensions, beam span lengths, and end connections. Capacity values can be calculated or tested as per applicable codes.

What is the typical accuracy of the roll formed box profile?

Precision roll forming can reliably achieve tolerances of +/- 0.5 mm on critical dimensions with correctly aligned and programmed equipment.

How to select the optimal height and thickness for an application?

An engineering assessment of loading conditions and span distances should be done to finalize appropriate beam section properties. Rule of thumb is higher and thicker beams carry more load over longer spans.

What are the advantages of CNC adjustable roll formers?

Adjustable forming heads allow fast production of varied beam sizes from 50 mm up to 600 mm tall without tooling changes. Common interface bus simplifies programming.

How does automated beam cutoff length control work?

A programmable logic controller determines where to shear beams based on an incremental length measuring encoder signal. Lengths are typically accurate to +/- 2.0 mm.

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