Robotic End-of-Arm Tooling worked example
Spare Part Buffer with eoat wear-part daily consumption of 3,000 units / day: a worked example
Push eoat wear-part daily consumption up to 3,000 units / day and the picture changes. This example computes every intermediate figure at that operating point. Use it when spare part buffer in robotic end-of-arm tooling is being sized for a buffer or safety stock review.
The inputs for this scenario
- EOAT wear-part daily consumption: 3,000 units / day (raised for this scenario; the documented default is 1,200)
- Replacement part lead time: 85 days (unchanged)
- Safety stock multiplier: 1.1 units (unchanged)
Working through the calculation
- Applying the documented formula (Spare part buffer cycle stock = spare part buffer daily usage × spare part buffer lead time) to the inputs above produces each figure below.
- At this operating point the engine returns 32.09 days for protected days of supply, the number this scenario is built around.
- At this operating point the engine returns 35.29 days for unprotected days.
- At this operating point the engine returns 3,000 pieces for inventory.
- At this operating point the engine returns 85 pieces / day for daily usage.
How this compares with the baseline
- Against the tool's baseline example, where eoat wear-part daily consumption sits at 1,200 units / day and the headline result is 12.83 days, this scenario comes in 150% above the baseline at 32.09 days.
- It combines daily wear-part usage, lead time, and a safety-stock factor into a required buffer inventory and expresses on-hand stock as protected days of supply. The value of this scenario is the size of the gap it exposes: that gap, priced out over a year, is the budget you can justify spending to close it.
Results at a glance
- Protected days of supply: 32.09 days (headline result)
- Unprotected days: 35.29 days
- Inventory: 3,000 pieces
- Daily usage: 85 pieces / day
Run it with your numbers
- Every input above is editable in the live Spare Part Buffer calculator, which recalculates instantly and can be shared with the inputs intact.
Last reviewed 2026-05-12.