Professional Ball Rebound Resilience & Bounce Height Testing System
Optimize the quality control and elasticity evaluation of your sports equipment with our premium Ball Bounce Height Tester. Engineered to deliver precise, automated rebound testing for pickleballs and tennis balls, this system features a fixed standard dropping height of 2540 mm.
Built upon a massive 400*500*200mmsolid marble base to eliminate structural vibration, the machine guarantees ultra-stable and repeatable testing environments. Controlled via an intuitive 7-inch PLC touchscreen interface, it streamlines laboratory workflows by automatically lifting the ball, releasing it, and logging bounce heights with a clean 1mm display resolution.
Technical Specifications:
1. Control Method: PLC + 7-inch touchscreen display
2. Calculation Method: Automatic averaging of multiple test results
3. Test Ball: Tennis ball
4. Minimum Height Display: 1 mm
5. Ball Elevation Method: Automatic
6. Drop Height: 2540 mm
7. Ball Drop Rate: 8 times/min
8. Speed Sensor: 1 set
9. Base Plate (Marble): 400 x 500 x 200 mm
10. Power Supply: AC 220V, 5A; Air Pressure: 6 kg/cm²
FAQs:
Q1: What is the core mechanical testing logic used to determine the exact ball rebound height?
A: The tester utilizes a high-precision velocity and positioning sensor array located right above the solid marble base. When the ball is released from the fixed 2540mm mark and impacts the base, the optical sensors capture the peak vertex of the primary rebound trajectory, translating the physical displacement into a digital readout with a 1mm display accuracy.
Q2: How does the system automate the ball handling and cycle execution to maintain a speed of 8 drops/min?
A: The testing logic relies on a pneumatic-driven automatic lift mechanism combined with an ergonomic manual placement area. The operator simply places the ball under the fixture; the system automatically grips it, raises it to the designated height, and initiates the drop. This synchronized pneumatic and electronic loop enables a continuous, hands-free testing cadence of 8 drops per minute.
Q3: What data calculation logic does the PLC system use to ensure reliable test reports?
A: To eliminate anomalies caused by minor structural variables or surface dust, the PLC control software employs a multi-run averaging logic. After executing multiple consecutive drops on a single batch or sample, the system automatically aggregates the stored telemetry, calculates the exact mathematical mean, and displays a comprehensive data report on the touchscreen.
