Professional Pickleball Sphericity & 3D Geometry Inspection System
Ensure flawless flight stability and strict compliance of your sports equipment with our advanced Pickleball Roundness Tester. Specially engineered for both pre-drilled (FQC final inspection) and non-drilled (IPQC in-process auditing) pickleballs, this system leverages non-destructive laser technology to evaluate outer-edge circular accuracy. Featuring a flexible configuration that handles ball diameters from 60mm to 100mm, this bench delivers hyper-accurate dimensional tracing within a sleek, lab-optimized 650x590x450 mm footprint.
Technical parameter:
1. This pickleball-specific roundness tester can measure both unpunched and punched balls.
(Unpunched balls: IPQC spot checks; Punched balls: FQC spot checks)
2. Measurement range: Compatible with ball diameters of 60–100 mm; can be customized based on user-provided samples.
3. The test trajectory employs three-dimensional spatial sampling.
4. Conversion between different specifications is pre-set; the ball diameter must be entered, and the laser sensor position adjusted.
5. Accuracy: Within ±0.5 mm.
6. Test pressure applied: <7 N.
7. Environmental requirements: Normal temperature and dry conditions.
8. Data Reading and Recording: Read via touchscreen and export to USB drive.
9. Data supports export to Excel; upper and lower limit alarms can be set according to user standards.
10. Dimensions: 650 x 590 x 450 mm
11. Power Requirements: 220 V, 500 W, 2.5 A
Testing Logic FAQs:
Q1: What is the core mechanical testing logic for handling both drilled and non-drilled pickleballs?
A: The machine features a dual-mode algorithm tailored for different production stages. For non-drilled shells (IPQC), the laser maps a continuous surface curve. For finalized drilled balls (FQC), the smart filtering software ignores the hollow perforations and focuses solely on the structural outer-edge material to compute true sphaericity without data corruption.
Q2: How does the system adapt its spatial sampling trajectory when switching between different ball specifications?
A: The instrument operates on a standardized parametric adjustment logic. When changing product lines, the technician simply inputs the target ball diameter into the touchscreen. The system then prompts the exact physical calibration for the laser sensor position to realign the 3D spatial scanning boundaries.
Q3: What environmental and calibration logic ensures the testing accuracy remains within ±0.5 mm?
A: To maintain an elite accuracy threshold within ±0.5mm, the testing logic relies on a stable ambient profile (normal room temperature, dry conditions). This eliminates thermal expansion or moisture swelling of the polymer samples, while the automated electronic zeroing ensures ultra-repeatable data capture.
