5.4.2 When to use V-only mode When to use V-only mode 5.4.2   oval method   V-only mode is the right configuration when your drilling workflow consistently produces a stretch on the vertical axis alone — toe to heel — with no measurable horizontal component, and when your documentation practice records that stretch as a single value rather than a dimensional pair. This page covers the specific situations where V-only mode is appropriate, the workflows and press setups it suits, and the cases where it is not the right choice even if vertical cuts dominate your work. 📐 The Core Condition for V-Only Mode V-only mode is appropriate when both of the following are true simultaneously: ✅ Your drill press setup physically produces a stretch on the vertical axis only — the ball or bit does not move horizontally during the oval cut ✅ Your documentation practice records that stretch as a single measurement, not as one half of a V × H pair If either condition is absent — if a horizontal component occasionally appears, or if your spec sheets have always used paired dimensions — V/H mode is the safer and more complete choice. V-only mode trades completeness for simplicity, and that trade only makes sense when the missing H value would always be zero. 🎳 Workflows Where V-Only Mode Fits Naturally Traditional Pivot-Arm Vertical Oval Technique The most common source of a pure vertical oval is a pivot-arm press where the arm swings exclusively in the toe-to-heel direction. When the pivot is set up and aligned correctly for a vertical arc, the bit traces a path along the V axis only — the ball does not move side to side. Shops that have used this technique for years and have never introduced a horizontal component naturally document a single stretch value, and V-only mode reflects that exactly. ✅ Pivot arm confirmed to swing on the vertical axis only ✅ Ball cup locked against lateral movement during the oval cut ✅ Staff trained to make and record a single-axis vertical stretch Simplified Finger Hole Fitting Workflows Many experienced drillers work from a single oval measurement for finger holes — particularly when fitting conventional fingertip or semi-fingertip grips where the lateral dimension of the hole is not a variable in the fit equation. For these shops the second value in a V × H pair carries no fitting information and is omitted as a matter of workflow efficiency. ✅ Finger hole ovals driven entirely by forward pitch and span mechanics — no lateral fit adjustment needed ✅ Thumb holes handled separately with their own fit protocol, not mixed into the oval record ✅ Bowler population whose fit requirements have never required a horizontal oval adjustment Solo Operator Shops with Consistent Equipment A single driller operating a single press with a fixed oval attachment — where the setup never changes — can safely use V-only mode because the absence of a horizontal component is a known, stable fact about the equipment rather than something that needs to be verified hole by hole. The consistency of the setup makes the single-axis record reliable over time. ✅ One driller, one press, one oval attachment — no variability between staff or equipment ✅ The setup has been used long enough to confirm it never introduces a horizontal stretch ✅ All historical records for this shop already use single-value oval notation Shops Preserving Consistency with Paper Record History If a shop's paper spec cards used a single oval column for decades — recording only the toe-to-heel stretch — switching to a paired format in Spectre Cloud creates a discontinuity in bowler history. A bowler whose 15 years of spec cards show 1/16" in the oval column will have records that read differently from new entries showing 1-1/16 × 1 , even though they describe the same hole. V-only mode keeps the new digital records consistent in format with the historical paper records. ✅ Historical paper records use a single oval field — matching V-only output ✅ Long-term bowler relationships where fit history continuity matters ✅ No plans to introduce horizontal oval cuts going forward 🛠️ Press Setups That Suit V-Only Mode Press Type / Setup V-Only Suitability Notes Pivot-arm press — vertical arc only ✅ Ideal Pivot swings toe to heel; ball cup locks laterally — pure V cut by design Ball cup with forward/reverse adjustment only ✅ Well suited Cup moves on V axis only; no lateral adjustment mechanism present Manual technique — driller controls direction ✅ Suited when consistently vertical Requires discipline and experience to avoid introducing lateral drift; verify with a gauge Pivot-arm press — adjustable axis ⚠️ Suited only when locked to vertical If the pivot can swing in any direction, confirm it is set and locked to vertical before relying on V-only mode Horizontal slide oval attachment ❌ Not suited Designed for H-axis cuts — produces horizontal ovals, not vertical; use H-only or H/V mode instead CNC or programmable press — V axis only programmed ✅ Fully suited When the program controls V axis movement only, V-only mode accurately reflects the cut Fixed-head press with no oval attachment ❌ Not applicable Cannot produce an oval of any kind without an attachment or deliberate technique ❌ When V-Only Mode Is Not Appropriate V-only mode should not be used in the following situations, even if vertical cuts are the dominant or preferred oval type in your shop: ❌ Your press occasionally introduces a measurable H component — even an infrequent horizontal stretch belongs in a V/H record; V-only will silently omit it ❌ You drill thumb ovals with a horizontal component — thumb holes frequently benefit from H-axis documentation; V-only mode cannot capture this without switching settings mid-session ❌ Your shop has multiple drillers using different press setups — one driller's purely vertical setup does not guarantee another's is the same; V/H mode captures the full picture regardless of who drilled the ball ❌ You serve travelling competitive bowlers — bowlers whose equipment may be serviced at other shops benefit from a complete paired oval record that any driller can reproduce without assumptions about axis direction ❌ You are unsure whether your press produces a pure V cut — measure a freshly drilled oval on both axes with a gauge before committing to V-only mode; if the H dimension differs from the starting bit by more than your measurement tolerance, a horizontal component is present ✨ Confirming Your Press Before Switching to V-Only If you are considering V-only mode for the first time, run this confirmation before changing the setting in Spectre Cloud: Drill a test oval on a scrap ball or plug using your standard technique and attachment. Measure the finished hole on both axes with a sizing gauge or digital caliper. Compare the H dimension to your starting bit size. If they are equal within your measurement tolerance, no horizontal stretch was introduced — V-only mode is accurate for this setup. If the H dimension is measurably larger than the starting bit, a horizontal component is present — use V/H mode and record both values. Repeat this check after any change to your press setup, attachment, or technique. Related Sections 5.4.1 — Setting up: Oval Cut Direction = V in Settings 5.4.3 — Entering V-only cut values and reading output 5.4.4 — Worked example: V-only oval from start to finish 5.3.2 — When to use H-only mode and which drill presses it suits 5.2.1 — Setting up: Oval Cut Direction = V/H in Settings Tip: When in doubt between V-only and V/H, choose V/H. The cost of recording a second value that always turns out to be zero is minimal — one extra field entry per hole. The cost of discovering that your press has been introducing a small horizontal component all along, with no record of it, is a spec history that cannot fully reproduce any of those fits. V/H is the conservative choice that keeps your options open. ⚠️ The press setup descriptions above reflect general industry equipment categories. Verify that your specific press and attachment produce a pure vertical cut before relying on V-only mode for live spec records — contact the Spectre team if V-only mode behavior in the Oval Calculator differs from the description in this chapter.