Capping Roll Forming Machines

Capping roll forming machines are used to manufacture metal caps and closures for various containers and packaging. This automated equipment forms metal coils into rounded caps through a continuous bending and folding process.

Capping roll formers produce high volumes of uniform caps at fast production speeds. They are commonly used for caps on food & beverage, pharmaceutical, cosmetic, and other consumer product packaging. This guide provides a comprehensive overview of capping roll forming machine technology, applications, supplier options and more.

capping roll forming machine
Capping Roll Forming Machines 3

Overview of Capping Roll Forming Machines

What is a Capping Roll Forming Machine?

A capping roll forming machine takes flat metal coil stock and transforms it into rounded cap profiles through a series of bending and folding roller stages.

The process involves gradually bending the strip stock material through a series of roller dies that progressively form the cap contour until the final shape is achieved. The formed caps are then cut to length by a shearing blade.

Roll forming creates a continuous strip of caps that can be cut to length as needed. It is an efficient automated process suitable for mass production of metal caps and closures.

How Does a Capping Roll Former Work?

A standard capping roll former consists of a decoiler or uncoiler, a straightening machine, feed rollers, a forming section, cutoff press and discharge chute:

  • Decoiler: Feeds the flat coil raw material into the roll former
  • Straightener: Corrects coil stock curvature and alignment for the forming section
  • Feed rollers: Pulls the strip through the machine at a set speed
  • Forming section: Bending rollers progressively form the cap profile in stages
  • Cutoff press: Shears finished caps from the strip to desired lengths
  • Discharge chute: Caps exit the system for downstream processes

The strip is fed from the decoiler through each section in a continuous automated process. The forming section is the core of the machine and uses a series of roller dies to gradually bend the metal into the final cap shape.

Roll formers can be structured in a horizontal or vertical inline design. The forming rollers are positioned to bend the strip stock incrementally as it passes through the machine.

Precise roller design, dimensions and positioning are required to achieve the desired cap contour profile. Rollers can have concave, convex, angled or other shapes as needed for the specific cap geometry.

What Cap Materials Can Be Roll Formed?

capping roll forming machine work with thin, flat strips of malleable metal typically between 0.3 – 2 mm thickness. Common cap materials include:

  • Aluminum
  • Tinplate/Tin-Free Steel
  • Stainless Steel
  • Pre-coated Metals
  • Plastics (PET, PP, PVC)

Softer metals like aluminum and tinplate allow tighter bending radiuses and more complex cap shapes. Harder metals like stainless steel require more gradual bending. Plastics can also be roll formed at slower speeds using heaters and appropriate tooling.

What Cap Styles Can Be Produced?

Capping roll formers can produce a wide variety of cap and closure designs including:

  • ROPP caps – Roll-On Pilfer Proof
  • Snap-on caps
  • Screw caps
  • Dispensing caps
  • Spouted caps
  • Aluminum bottles & cans

Common profiles include flat caps, domed caps, conical caps, flip-top caps, and custom or proprietary shapes. Multi-stage tools allow more complex double-formed and shaped cap designs.

Key Benefits of capping roll forming machine

  • High speeds – capable of 100m/min with some machines over 200m/min
  • Volume production – ideal for long runs with minimal downtime
  • Automated process – reduces labor compared to hand stamping
  • Flexibility – quick roll changeovers for different cap sizes
  • Simplicity – forms caps in one continuous operation
  • गाढ़ापन – ensures uniformity and repeatability
  • Strength – work hardens and strengthens metal during forming

Roll formed caps offer performance advantages over stamped caps through greater dimensional consistency, strength and material savings. The automated process also allows scalable volume production.

Limitations of Roll Forming Technology

  • Not as cost effective for short runs or frequent changeovers
  • More expensive upfront capital investment than stamping presses
  • Limited in complexity compared to stamping and drawing processes
  • Precision tooling required for each cap profile
  • Size range limited by roller bend radiuses

For simple cap designs in long production runs, roll forming provides efficiency and quality benefits. But for short runs or complex cap shapes, stamping presses may be better suited.

Roll Formed Cap Applications

Capping roll formers produce metal caps and closures for a wide range of packaging applications:

Food and Beverage Caps

Screw caps, snap-on caps, ROPP caps, and dispensing caps for:

  • Condiments – Ketchup, mustard, mayo
  • Dairy – Yogurt cups, creamers
  • Water and beverages
  • Health drinks and supplements
  • Oils, sauces, salad dressings
  • Nut butters, jams

Domed and shaped caps are also used for liquor, wine, beer, and other glass bottles.

Pharmaceutical Caps

Child-resistant and tamper-evident caps for:

  • Prescription bottles
  • Over-the-counter medicines
  • Supplements and vitamins

Cosmetic Caps

Dispensing caps and decorative caps for:

  • Lotions, creams, serums
  • Hair gels, sunscreens
  • Cosmetic jars
  • Deodorants, perfumes

Home & Personal Care Caps

Caps for household cleaners, soaps, detergents and more:

  • Surface cleaners, disinfectants
  • Dish soap, hand soap
  • Laundry detergent
  • Air fresheners
  • Shampoos, body washes

Other Applications

  • Closures for cans & tins
  • Spouts and pouring aids
  • Paints, coatings, adhesives
  • Automotive chemical bottles
  • Aerosol actuators

Roll formed caps serve critical functions for container sealing, dispensing, dosing, child-resistance, tamper evidence and more.

capping roll forming machine
Capping Roll Forming Machines 4

Types of Capping Roll Forming Machines

There are several machine design configurations used in cap roll forming based on the product requirements:

Horizontal Capping Roll Formers

Horizontal roll formers have a straight-line inline layout with forming sections arranged end-to-end. This is the most common layout for standard cap profiles.


  • Compact footprint
  • Inline arrangement simplifies material handling
  • Efficient for high volume production
  • Allows fast forming speeds


  • Size range constrained by roller bend radiuses
  • Not optimal for quick changeovers
  • Accessing forming rollers can require side service doors

Vertical Capping Roll Formers

Vertical orientated machines have a stacked forming layout for easier roll access. Material handling runs vertically between sections.


  • Provides better access to tooling for setups and changeovers
  • Easier to add modular forming sections
  • Takes up less floor space


  • Increased material handling complexity
  • Not as efficient for high volumes
  • Size range still limited by bend radiuses

Servo Roll Forming Systems

Servo roll formers use powered servo motors on the forming rollers for greater precision and capabilities.


  • Improves forming accuracy and repeatability
  • Allows speed adjustments during production
  • Enables quick roll changeovers through stored recipes
  • Simplifies setup with automated roller positioning
  • Permits more complex profiles


  • Much higher capital cost than standard machines
  • Requires advanced controls and software
  • Not needed for basic cap profiles

Rotary Plastics Roll Forming

Rotary plastic roll formers use roller dies mounted on rotary heads. Heaters soften the plastic for forming.


  • Ideal for high speed PET cap production
  • Suitable for PP, PVC and other plastic caps
  • Compact design for plastic cap production


  • Only useful for plastic caps, not metal
  • Limited profile shapes compared to metal forming
  • PET and PP have specific heating requirements

Combination Roll Forming Lines

Combination machines integrate auxiliary processes inline with roll forming to create a complete cap production system.

Typical combinations include:

  • Roll forming + lining/coating
  • Roll forming + heat sealing
  • Roll forming + printing/decoration
  • Roll forming + spin forming
  • Roll forming + sealing/lidding
  • Roll forming + laser scoring


  • Automates multiple processing steps
  • Simplifies material handling
  • Smaller footprint than separate machines
  • Improves quality control


  • Requires technical integration
  • Increases complexity if issues arise
  • Combination may limit production rates

Cap Roll Former Specifications

Capping roll formers are defined by key parameters depending on the machine configuration:

पैरामीटरTypical Range
Coil Width50 – 720 mm
Strip Thickness0.3 – 2 mm
Cap Diameters10 – 150 mm
Production SpeedUp to 220 caps/min
Installed Power5 – 30 kW
Roll Changing Time10 – 60 mins

Other factors that influence cap roll former selection include:

  • Level of automation – manual, semi-auto or fully automated
  • Changeover flexibility – quick change or fixed tooling
  • Integration options – secondary processes, handling systems
  • Controls interface – operator screens, data monitoring
  • Production volumes – short run vs. high volume
  • Staffing requirements – operator skill level needed
  • Plant environment – floor space, ceiling height

Matching the roll former specifications and layout to the product requirements ensures optimal performance and return on investment.

Roll Tooling Design for Capping Roll Formers

The roll tooling contains the roller profiles that bend and form the cap contour. Roll design is a critical factor in achieving the desired cap specifications.

Key elements in roll tooling design include:

Roller dimensions – diameter, width, lengths based on cap size

Roller materials – steel, rubber, urethane, sandblasted

Roller geometry – shape, grooves, concave, convex

No. of roller stages – more stages allow more complex profiles

Roller positioning – linear, circular, angled as needed

Inter-stage access – openings for scrap strips or scrap choppers

Roller adjustment – precision gapping, vertical & horizontal

Quick change design – rapid roll changing for flexibility

The roller profile geometry is machined, cast or ground to match the reverse shape of the desired cap contour. CAD programs are used to design the tooling profiles based on the cap specifications.

Too few roller stands leads to inadequate forming, while too many stands increases load and cost. The roller sequence and gapping must be precision engineered to get the optimal material flow and bending.

Quick change tooling allows roll replacement for different cap sizes within 10-60 minutes to minimize downtime. The ability to store recipes digitally simplifies roll changeovers on servo roll lines.

capping roll forming machine Manufacturers

There are many equipment manufacturers that engineer and produce capping roll forming machines. Here are some of the leading global suppliers:

सैमको मशीनरीToronto, Canada
FeiyueZhejiang, China
Jingjing MachineryJiangsu, China
Anhui InnovoAnhui, China
Botou XianfaHebei, China
GreenerdNashua, NH, USA
FormtekMassachusetts, USA
DimetrollPawcatuck, CT, USA
FormtekMassachusetts, USA
FOM IndustrieVenaria, Italy
Erhardt+LeimerStuttgart, Germany
Metal Forming SystemsSussex, UK

These established manufacturers offer a full range of standard and custom capping roll formers to meet different production needs. Consulting with qualified suppliers helps select optimal configurations and specifications.

Factors to consider when choosing a roll forming machine supplier include:

  • Years of experience with cap roll forming
  • Staff engineering expertise
  • Range of equipment offered
  • Flexibility for integration and customization
  • Local vs. overseas manufacturing and support
  • Installation, training, and after-sales services
  • Overall reputation and client references
  • Pricing and delivery times

capping roll forming machine Pricing

The cost of capping roll forming equipment depends on the machine size, production speed, level of automation and optional features:

Machine Typeमूल्य सीमा
Manual Capping Machines$8,000 – $35,000
Semi-Automatic Lines$45,000 – $120,000
Automatic High Speed Lines$150,000 – $250,000
Servo Roll Forming Systems$250,000+
Combined Lines with Auxiliary Processes$300,000+

Pricing is also affected by:

  • Control systems – basic, PLC, or advanced
  • Changeover design – fixed or quick change tooling
  • Number of heads and tooling sets included
  • Material thicknesses and widths required
  • Production rates in caps per minute

Get price quotes from at least 3-4 qualified suppliers before purchasing. Evaluate long-term costs like spare parts, maintenance, and production efficiency in addition to upfront price.

How to Choose the Right capping roll forming machine

Selecting the optimal roll forming machine depends on clearly defining your production requirements:

  • Metal type – aluminum, steel, SS
  • Cap sizes – diameters, depths
  • Cap design – profile complexity
  • Required output – caps per minute
  • Annual volume – total caps/year
  • Changeover needs – frequency, flexibility
  • Product variety – number of SKUs
  • Staffing – operator skill level
  • Floorspace – layout constraints
  • Budget – equipment investment

With this production data, suppliers can recommend suitable equipment specifications for:

  • Strip widths and thicknesses
  • Machine speed and throughput
  • Level of automation
  • Changeover design
  • Controls and functionality
  • Line integration needs

Don’t overspend on unnecessary capabilities or complexity. But ensure the machine meets current and future production needs to maximize the capital investment.

Pilot trials at the supplier site with your materials can validate performance before purchase. Carefully review machine warranty, installation services, training, and other value-added support.

Roll Formed Caps vs. Stamped Caps

Roll forming and stamping are the two main processes for metal cap production. Here is a comparison of the pros and cons of roll formed caps vs stamped caps:

Roll Formed CapsStamped Caps
Set-up timeMedium, 10-60 mins with quick changeShort, under 10 mins
Process SpeedHigh, to 220 caps/minMedium, around 120 caps/min max
Short RunsChangeovers limit flexibilityExcellent for small batches
Long RunsLower cost, high consistencyProgressive tool wear
ComplexityLimited by bend radiusesHighly complex profiles feasible
Dimensional AccuracyExcellent, precise automationMore variability without automation
StrengthWork hardening increases strengthAnnealing often required after stamping
Cost ProfileHigher initial cost, lower variable costLower initial cost, higher variable cost
Labor Requirements1-2 operatorsSemi-skilled press operators
Common ApplicationsBasic cap profiles, long runsLow to medium runs, complex designs

In summary, roll forming suits high volume continuous production while stamping suits short runs and complex cap shapes that justify the added setup time. The choice depends on the production environment and product mix.

Many manufacturers use a combination of both technologies for optimal flexibility. Roll formed caps can also be fed into secondary dies for additional forming operations after the initial roll forming process if needed.

Cap Roll Forming Machine Operation

Properly operating a capping roll former requires the following procedures and precautions:

1. Material LoadingSelect correct coil for scheduled production. Load onto decoiler and thread through machine.
2. Forming Roll SetupStage proper indexed rolls in each stand per job order. Adjust roll gaps.
3. Machine SettingsInput product parameters into the controls like width, thickness, speed.
4. Trial RunRun material through slowly checking formed shape and cut accuracy.
5. Speed AdjustmentIncrease to production speed incrementally ensuring quality.
6. Production RunMonitor line function. Check caps periodically for issues.
7. Shift ChangeBrief next operator fully on job status, counts, issues.
8. Roll ChangeoverReplace forming rolls safely when required using overhead crane.
9. MaintenanceFollow schedule for roll inspection, lubrication, hydraulics service, belt tensioning.
10. SafetyFollow all lockout/tagout procedures for roll changes. Use protective guards.
  • Always wear appropriate PPE like close-fitting clothing, gloves, eye protection when working around the machine. Remove loose items like jewelry or ties that could get caught.
  • Make sure all access panels and guards are in place during operation. Do not bypass or override safety interlocks.
  • Give the machine your full attention when running production. Do not get distracted.
  • Adjust speed settings gradually. Sudden acceleration can cause strips or caps to whip up dangerously.
  • Monitor belt tension and alignment. Re-tension or realign before it can slip or fail.
  • Listen for unusual sounds like banging or grinding that indicates an issue. Stop the machine immediately to investigate problems.
  • Ensure the area is clear of items that could fall into the machine or create slip/trip hazards.
  • Use proper material handling techniques when loading coils. Secure them to prevent shifting.
  • Adhere to maintenance schedules especially for lubrication. Lack of lubrication causes excessive wear.
  • Follow established lockout tagout procedures for maintenance, roll changes, clearing jams etc. Verify zero energy before accessing.
  • Use overhead cranes or lifts carefully when handling heavy forming rolls. Take precautions against pinching injuries.

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