The GUNT Multi-Head Diaphragm Pump Trainer demonstrates metering and dosing operations commonly used in process and food technology. The trainer features three pump heads that draw water from a feed tank and discharge it into scaled collection tanks. Each pump head's stroke is individually adjustable, while the common stroke rate is set via a central control unit. Overflow valves and manometers allow for individual counter pressure adjustment and monitoring on both intake and delivery sides. This setup enables students to analyze how stroke settings and counter pressure influence flow rates and mixing ratios. A stopwatch is included for manual flow rate calculation.
Product Features
- Multi-head diaphragm pump trainer with three independently adjustable pump heads
- Designed for training in precise metering and hygienic pumping applications
- Common stroke rate adjustable via centralized control switch box
- Each pump head stroke adjustable directly at the unit
- Conveys water from a feed tank to individual collection tanks with scales
- Overflow valves allow setting of individual counter pressures per pump head
- Manometers on intake and delivery sides of each pump head
- Observe pressure influence on flow rate and mixing behavior
- Stopwatch included for determining flow rate using scaled tanks
- Leak-free design supports hygiene compliance, ideal for food tech training
Benefits
- Realistic simulation of industrial metering and dosing processes
- Clear demonstration of stroke, pressure, and flow rate relationships
- Suitable for hygiene-critical applications like food and beverage technology
- Hands-on practice in flow measurement and pressure control
- Ideal for mechanical, process, and food engineering education
Why Choose the GUNT Multi-Head Diaphragm Pump Trainer 3 Pump Heads?
The GUNT Multi-Head Diaphragm Pump Trainer is an essential teaching tool for understanding the dynamics of hygienic dosing systems. With full control over stroke, pressure, and flow measurement, it provides a complete learning platform for analyzing pump performance and flow behavior in process engineering environments.
