Do not size from peak speed alone
A machine may be capable of a certain rate, but real output depends on cap feeding, bottle spacing, stability and whether operators can keep the process supplied.
Output planning
Output planning should consider more than the headline capping speed. Bottle feeding, cap placement, operator loading, changeovers and downstream equipment all affect real line performance.
A machine may be capable of a certain rate, but real output depends on cap feeding, bottle spacing, stability and whether operators can keep the process supplied.
Semi-automatic cappers can improve torque consistency but still rely on operators for bottle or cap handling. They are often a strong fit for lower-volume batches.
Automatic inline cappers need more line planning but can support sustained output where filling, labelling and outfeed handling are coordinated.
Shortlist route
Use this table to narrow the likely capping machine route before sending samples and output targets.
| Requirement | Likely route | Why it matters |
|---|---|---|
| Low output | Semi-automatic capper | Best for batches and flexible working. |
| Medium output | Compact or assisted capper | Balances space, labour and repeatability. |
| Higher output | Inline automatic capper | Designed for continuous line running. |
FAQ
Both help. Bottles per minute shows line speed, while bottles per hour reflects batch planning.
Cap loading, bottle jams, changeovers, operator availability and downstream bottlenecks.
Yes, when manual cap placement is limiting the line.
Related pages
These related pages help compare spindle cappers, screw cappers, cap feeding systems and project pricing.
Ready to shortlist?
Lancing UK can review samples, speed, cap feed and line layout before recommending a capping route.