Audience: indoor golf venues, simulator chains, integrators/contractors, OEM brands, experiential stores, coaching studios (B2B)
Supply formats: custom-made screens (built to project specs) or fabric rolls
Technical support: professional fabric engineering team for material and structure recommendations
Q1. What result should a golf impact screen deliver?
A golf impact screen is the tool; the result is compliance-ready safety, HD image quality, quieter impact, controlled low rebound, durability, and a replicable operating model with fewer service breaks.
Q2. Why a fire-rated golf impact screen comes first
Indoor venues combine heat sources and foot traffic. Management and insurers prioritize verifiable fire performance with documentation. A fire-rated approach typically smooths approvals and reduces risk in day-to-day operations.
Q3. Typical pain points in simulator screens
Surface-only FR treatments that wash out the image or shed powder
Treatments that raise rebound and impact noise
Inconsistent batches and weak documentation
Fire performance and clarity degrading after cleaning cycles
Q4. A results-oriented path (custom screens / fabric rolls)
Approach: optimize four outcomes together—fire performance → HD clarity → low rebound & noise → durability & maintenance.
Inherent/yarn-level fire performance to minimize the image penalty of topical sprays
HD projection geometry: balanced weave density + controlled diffusion for crisp text, natural grass texture, and clean bunker edges
Low-rebound energy management: multi-layer designs that reduce kickback and safety distance
Noise reduction options: damping combinations to lower impact dB while preserving sharpness
Project detailing (custom screens): width, layer count, edge reinforcement, hanging points, and hardware specs agreed per site
Compliance docs: third-party testing available per project (e.g., NFPA 701, ASTM E84, BS 5867, EN 13501-1; scope follows local norms)
Format guidance: Custom screens suit standardized rollouts and speedy replication; fabric rolls give integrators flexible cutting, shorter cycles, and lower off-cut waste.
Q5. How to verify a golf impact screen without losing HD
Use fixed projector settings (1080p/4K) and compare samples:
Sharpness: text edges, grass texture, bunker boundaries; no halo/ghosting
Rebound control: log 50 consecutive shots; tighter distance/angle distribution = safer, more predictable bays
Noise: record peak/average dB at impact; lower is better for late-hour operation
Durability: re-test fire performance and sharpness after cleaning
Q6. Who uses it—and what results did they get?
Korea—venue chain: inherent-FR structure cleared property reviews; late-hour complaints dropped, longer operating windows
North America—integrator: fabric rolls cut locally to size, shorter lead times, controlled off-cuts; fewer maintenance interventions over the year
Japan—training studio: low-rebound build reduced safety distance, enabling one extra bay in the same footprint
Pattern: quieter hits, steadier visuals, fewer service breaks—buyers get outcomes, not just fabric.
Q7. Why this factory for your golf impact screen
End-to-end manufacturing: yarn → weaving → finishing → cutting & sewing → QC, with traceability
Two supply modes, one parameter set: custom screens and fabric rolls are same-source, same-spec for chain replication
Professional fabric engineers: material, weave, layers, and FR/noise/rebound parameters provided as actionable settings
Regional fluency: documentation and terminology aligned to North America / Europe / Korea / Japan norms
Result-based handover: acceptance checklist on fire performance, clarity, low rebound, noise, durability
Q8. Collaboration flow for B2B projects
Project intake: dimensions, projector brightness/resolution, business hours, FR/management requirements
Samples: compare sharpness, rebound distribution, impact dB
Parameter lock-in: width, layers, edge reinforcement, hanging points, hardware specs
Pilot room: baseline data + acceptance sheet
Batch delivery: protective packaging, care guidance, recommended maintenance intervals
Annual review: iterate parameters from operating metrics
FAQ (Selected)
Q: Which fire/material standards can you support?
A: Depends on project and local regulations (commonly NFPA 701, ASTM E84, BS 5867, EN 13501-1). Third-party testing and reports can be arranged as required.
Q: How do you balance HD clarity with noise reduction and low rebound?
A: By tuning weave density, fiber composition, and damping layers—then validating under fixed projector settings with rebound distribution and dB logging.
Q: Custom screen vs. fabric roll—how to choose?
A: Choose custom screens for standardized deployment speed; choose fabric rolls for integrators who prefer local cutting to optimize time and waste.
The team you’ll work with (to make outcomes predictable)
Fabric Engineer: materials, weave, layers, and FR/noise/rebound parameters
Project Manager: dimensions, detailing, process documentation, acceptance checklist
Regional BDM: pricing, lead time, documentation set, long-term contract terms
Goal: turn specifications into consistent venue outcomes—faster approvals, steadier operations, fewer service breaks.
Action tips (for B2B buyers)
New build or refit: run a three-part sample test (FR + clarity + noise). One week of data gives objective go/no-go.
Integrators: pick between fabric rolls (flexibility, speed) and custom screens (standardization).
Chains/brands: codify data-driven acceptance to replicate across cities efficiently.
For quotations/samples, include dimensions, projector specs (lumens/resolution), operating hours, and management/insurance FR requirements.
