Bottle range
Height, diameter, shape, fill level and material affect side-belt and guide design.
Specification guide
Inline spindle cappers work best when the bottle, cap and line conditions are defined clearly. This page highlights the details that shape the recommendation.
Height, diameter, shape, fill level and material affect side-belt and guide design.
Diameter, height, liner and thread quality affect spindle wheel setup and torque consistency.
Conveyor height, infeed, outfeed and upstream output affect integration.
Shortlist route
Use these checks to decide whether the project is a semi-automatic, compact or automatic inline capping route.
| Project signal | Likely route | Why it matters |
|---|---|---|
| One stable round bottle | Standard inline spindle route | Simple project when the cap and bottle are compatible. |
| Multiple SKUs | Format and changeover plan | Ensures the machine remains practical beyond one bottle size. |
| Cap feed needed | Elevator, chute or bowl feed | Reduces manual workload where cap format supports feeding. |
Related routes
FAQ
Stable bottles, threaded caps and the need for repeatable inline tightening are strong indicators.
Often yes, but the adjustment range and change parts must be planned.
State target bottles per minute or hour and whether output must be sustained across a shift.
Ready to shortlist?
Lancing UK will help identify whether you need a semi-automatic capper, compact capper, inline spindle capper or specialist cap feeding route.