ReCoil · DOOR SYSTEMS PRIVATE
Door types Motor · 98032 Physics data Speed & safety CNC plan Mounting Commissioning Patents
Two families, one spring

Door Systems & Data Log

The same .325 × 3.75 × 46 spring pair covers both door families — rolling steel takes it direct, Janus sheet takes it through a chain couple. Pick a type to see the spec & k.
CoupleDirect 1:1 — motor on the shaft end
Ratio kk = 1.0  no ratio
Spring pairStock .325 × 3.75 × 46 — one L + one R wound
Hub / CNC partOutside-mount collar hub (no ratio adapter)
Motor + sideroom98032 collar on shaft end · 8.5" drive-side clearance
Curtain speedBaseline (direct drive) — smaller coil radius, ~11–23 in/s
Notable checkPipe-wall bearing at bolt holes per gauge; hand-rotate open, springs must tighten
Operator

LiftMaster 98032 datasheet-verified

Residential heavy-duty DC wall-mount jackshaft (98032MC) — the only UL 325 residential wall-mount rated to 1,100 lb. Every spec below verified against LiftMaster + dealer sources.

The ReCoil-critical spec: no external Cable Tension Monitor. The external cable-monitor clips to a lift cable — a cable-less rolling curtain has none. The 98032 monitors cable tension electronically inside (replacing the 041A6104 external monitor + overhead rails), so it covers UL 325 without the accessory that couldn't attach anyway. confirmed
Simulation · logged

Physics data ✓ re-verified in python

Same spring pair (rate 102 in-lb/turn), swept against three Janus sheet doors + the mid rolling-steel door. Peak torque is at closed (max weight × min radius). Expand the raw log for the exact computed values.

DoorTypePeak in-lbBarrel turnskMatchWire ksiVerdict
12×12 midR&S steel (6" pipe ≈ 3.3" R)7965.21.089%118solid
10×10 sheetJanus6752.431.5101%67dead-on
12×12 sheetJanus10682.891.75100%91comfortable
14×14 heavyJanus17683.132.083%131re-spec
14×14 is genuinely marginal — flag, don't ship as-is. 83% match = the pair is under-powered (door runs head-heavy). And 131 ksi wire bending stress sits near/over the ~105–120 ksi garage-door-duty fatigue band → real cycle-life concern. Re-spec: larger wire, different ID/length, a second spring, or a higher k — pull match toward 100% and stress under ~115 ksi. The 10×10 and 12×12 are clean.
▸ See the logged data (raw recomputed values)
PAIR spring rate = 2 × IPPT(0.325, 3.75, 46) = 102.09 in-lb/turn

JANUS SHEET DOORS (H, psf, bottom bar, Rd start-radius, t wrap)
  10×10  H=120 psf=0.75 bb=15 Rd=7.5 t=0.30
     T_closed 675.0 · T_open 122.9 · barrel turns 2.4285
     k=1.5  → required rate 100.9 · MATCH 101.1% · wire 66.8 ksi   ✓
  12×12  H=144 psf=0.85 bb=20 Rd=7.5 t=0.30
     T_closed 1068.0 · T_open 167.3 · barrel turns 2.889
     k=1.75 → required rate 101.8 · MATCH 100.3% · wire 90.5 ksi   ✓
  14×14  H=168 psf=1.0 bb=25 Rd=8.0 t=0.35
     T_closed 1768.0 · T_open 227.4 · barrel turns 3.128
     k=2.0  → required rate 123.1 · MATCH 82.9% · wire 131.2 ksi   ⚠ marginal

ROLLING STEEL (direct 1:1)
  12×12 mid, 1.6 psf, 6" pipe (coil radius ≈ 3.3")
     peak 796 · barrel 5.2 turns · MATCH 89% · wire 118 ksi · +63 residual at open   ✓

NOTE: wire stress uses the torsion-spring BENDING form 32·M/(π·d³) with M = per-spring
moment — correct for a torsion spring (the wire bends as it winds), confirmed on review.
NOTE: "6-inch pipe" = ~3.3" coil radius, NOT 6". The one-pair-both-families result holds
at the true pipe radius; re-check per real barrel OD before quoting a job.
Curtain speed · entrapment

Speed & safety ✓ arithmetic verified

Big coil radius = fast curtain. At jackshaft speed (~36 rpm) a sheet door runs fast — and it's fastest near full open (largest coil), but the pinch/crush risk is worst in the last ~24" near the floor.

Coil radiusCurtain speed @ 36 rpmft/s
3.0" (near closed)11.3 in/s0.9
6.0"22.6 in/s1.9
7.5"28.3 in/s2.4
9.5" (full coil)35.8 in/s3.0
The ratio helps — a genuine bonus. The chain couple divides curtain speed by k, so 28 in/s → ~19 (k=1.5) or ~14 (k=2.0). Because spring demand scales 1/k² and speed scales 1/k, the k you pick for balance also pulls the curtain slower. Elegant — but k is set by the balance equality; treat the speed drop as the free upside, then verify speed independently.
Do NOT treat speed reduction as the safety mechanism. Even 14–19 in/s is > 1 ft/s. UL 325 doesn't bless speed alone — a motorized install requires monitored entrapment protection (the LC36M light curtain and/or a monitored sensing edge) that reverses on obstruction. Confirm it trips within stopping distance at the fastest modeled speed (35.8 in/s), not the reduced one. Wire the monitored curtain to the 98032's monitored input so a fault fails the door safe. Non-negotiable.
Build

Four CNC parts + angle-iron adapter

Mounting

Self-anchoring — the door carries it

Zero new structural anchors by default. A rolling door already carries itself through its guides and jambs (no lintel load — stock rolling-door engineering). ReCoil borrows that path: the head unit bolts to the existing head-plate top pattern and the door anchors the conversion. Added load = shaft + spring static + torque reaction (~800–1,300 in-lb ≈ a ~220 lb bolt couple at 6" spacing — easy for 3/8 hardware) + ~300 lb chain radial on the variant. patent #10

One node family, four answers

Field procedure

Commissioning checklist

Run in order, every install. Sign + date the card — it doubles as the residual-imbalance record.

Extra design notes

Provisional #6 · file before first customer install

Patent inventory — 11 items

  1. Externalized-counterbalance conversion method — inner springs retired, serviceable external resi-stock counterbalance ("never drop a barrel").
  2. Outside-mount collar hub (v0.2) — tab-bolts to the pipe end wall from outside, no teardown.
  3. Worm-gear self-locking tensioner anchor — fine-adjust, no bars, can't back-drive.
  4. 1/k² ratio-selection method + Designer tool — picks spring/ratio per door.
  5. Unified back-mount bracket family — one plate, all three concepts.
  6. Extended hood as combined guard/enclosure — weather + moving-parts guard for the listing.
  7. Heavy-door chain-couple variant — with crossed-cable reversal option.
  8. Drum-hub bushing — dead-axle-to-live-shaft sheet-door method new — through-pinned drum adapters convert a Janus/sheet door to a serviceable live shaft.
  9. Ratio-as-speed-governor new — couple ratio chosen for spring balance (1/k²) that also reduces curtain speed (1/k) into the entrapment-safe band. (Claim on the joint observation — light-curtain protection still required.)
  10. Self-anchoring conversion mount new — counterbalance load path routed into the door's own guide / head-plate steel (no wall anchor), plus the head-unit consolidation + node-plate & commodity-angle adapter system.
  11. Minimax wind targeting new — winding a coiling-door conversion to center imbalance across full travel (demand peaks after the floor), computed per door: sheet ±few lb (manual-friendly), rolling steel ±14–21 lb (motorized). Nobody winds this way because nobody computes it.