There are 19 products.
Reference : 91030
This oil-lubricated compressor is characterized by its exceptionally quiet operation, with a noise level of only 45 dB(A). It is ideally suited for use in educational environments, such as classrooms and laboratories. The unit is equipped with a pressure regulator and a water separator, ensuring a clean and stable air supply.
Reference : 548687
Up to four EasyPort USB modules can be connected simultaneously via a USB hub or four separate USB ports on a PC. Each module must be assigned a unique address.
For signal exchange between EasyPort USB and PC software, the EzOPC OPC server or the EasyPort USB ActiveX control component is available.
Reference : 8021637
Up to four EasyPort USB modules can be connected simultaneously via a USB hub or four separate USB ports on a PC. Each module must be assigned a unique address.
For signal exchange between EasyPort USB and PC software, the EzOPC OPC server or the EasyPort USB ActiveX control component is available.
Reference : DM-102
The DM-102 Pump Variations Training Set is a comprehensive educational system designed for the study and analysis of various pump types and their operating principles.
Centrifugal pumps
Two centrifugal pumps allowing individual, series, or parallel operation.
Piston pump
Positive displacement pump for controlled flow experiments.
Side-channel pump
Self-priming, capable of handling gases depending on liquid level.
Each pump is driven by a three-phase AC motor. Speed control is achieved via frequency converters.
One free position with reversible motor allows integration of additional pumps.
Reference : FM-150.08
Overview
The training unit is designed to demonstrate Bernoulli’s theorem and to perform flow measurement calculations using a variety of flow measurement devices.
Features
This self-contained system includes its own storage tank, integrated pump, and support frame, allowing it to operate independently without the need for external equipment.
Reference : FM-204
The FM-204 is a training unit designed for the comprehensive study of pressure losses in piping systems. It enables the visualization and analysis of hydraulic resistance effects caused by pipe elements such as elbows, valves, and cross-section variations.
With its modular design and interchangeable components, this system is ideal for technical and higher education laboratories.
When water flows through a piping system, hydraulic resistances lead to pressure losses, particularly at fittings, valves, and other pipe components.
The FM-204 unit is designed to study and visualize these pressure losses in various piping elements. This experimental setup enables the analysis of how different pipe geometries influence fluid flow.
The FM-204 experimental unit consists of a pipe section incorporating several elements with different flow resistances, as well as contraction and expansion sections. A ball valve is also integrated into the system.
Pressure measuring points equipped with annular chambers are positioned upstream and downstream of the pipe elements to ensure accurate pressure measurements.
These measuring points can be connected in pairs to six tube manometers, allowing the determination of pressure losses across each piping element.
- Study of major and minor pressure losses
- Flow analysis in different materials and pipe diameters
- Understanding pressure and flow behavior
- Practical training in measurement and instrumentation
- Fluid mechanics laboratory experiments
Reference : FM-300
The FM-300 is an open-circuit Eiffel-type wind tunnel designed for aerodynamic and fluid mechanics experiments. It enables accurate investigation of airflow behavior around stationary models.
In the FM-300 wind tunnel, ambient air is drawn in and accelerated to create a controlled airflow around a model placed in a transparent measuring section. After passing the model, the air is decelerated in a diffuser and expelled by a high-efficiency axial fan.
The optimized nozzle design and flow straightener ensure a uniform velocity profile with minimal turbulence. Air speeds of up to 28 m/s can be achieved.
Référence : FM-151
The FM-151 is a comprehensive training system designed for the study of hydrostatics, enabling analysis of fluid behavior at rest and the effects of hydrostatic pressure. It is ideal for engineering education in fields such as plumbing, fluid mechanics, aerospace, and marine engineering.
The system allows a wide range of experiments including pressure measurement, capillarity, buoyancy, and Boyle’s law demonstration. Its transparent design ensures clear visualization of physical processes in real time.
Reference : FM-303
The FM-303 is an advanced experimental unit designed for the study of fluid mechanics, specifically focusing on incompressible air flow. It enables precise measurement of pressure distribution and velocity profiles, which are essential for turbomachinery design and fluid system analysis.
With its extensive range of accessories, the FM-303 allows a wide variety of experiments in steady incompressible flow. It is equipped with Pitot tubes for analyzing both free jets and internal pipe flow.
A low-loss inlet and optimized pipe section ensure ideal flow formation. Air flow can be analyzed using interchangeable elements such as a nozzle, orifice plate, or adjustable iris diaphragm.
References :
With Learnline, you benefit from a fully integrated organizational concept designed for immediate use in teaching pneumatics, hydraulics, and electrical engineering. Every detail combines functionality and design to meet the demands of modern education.
The Learnline range includes mobile and fixed base units equipped with cable compartments and oil trays, various mounting systems with extensions, mobile and stationary cabinets, specialized storage solutions, mounting elements, and a wide range of accessories.
Thanks to its modular design, the Learnline workstation system offers a wide variety of configurations and integration possibilities. Used in more than 50 countries, it is supported by experienced consultants who provide tailored solutions.
No compromises are made when it comes to quality. Both workmanship and functionality meet the highest standards. The torsion-resistant structure, combined with a high-quality coating of the work surface and frame, ensures long service life even under heavy use.
Learnline is designed to withstand both everyday training conditions and dynamic loads, such as those generated during hydraulic positioning adjustments. It easily absorbs high mechanical forces, for example those produced by hydraulic control systems, proportional pneumatics, or robotic applications.
Learnline’s design enables it to meet a wide range of technical and educational requirements. Carefully engineered individual components allow configurations to be tailored to user needs, available space, and specific technical challenges.
The functional profile column is at the core of the modular system. As a central mounting point, it offers numerous configuration possibilities. All elements can be securely and easily mounted on the profile plate without the need for force or special tools, using T-nuts or the patented Quick-Fix fastening system.
This fastening system is compatible with all technologies and application areas.
Reference : FM-100B
The FM-100B Fundamental Fluid Mechanics Training Set is a base module designed to supply various experimental units in fluid mechanics. It provides a complete educational platform featuring a closed water circuit with a storage tank, submersible pump, and measuring tank.
This system is ideal for engineering laboratories and technical training environments, enabling hands-on experiments and accurate analysis of hydraulic phenomena, including volumetric flow rate measurement and flow behavior.
The FM-100B unit supports the following experimental modules:
Reference : FM-100.02
The FM-100.02 experimental unit is designed to demonstrate Bernoulli’s principle, which describes the relationship between fluid flow velocity and pressure. According to this principle, an increase in flow velocity results in a decrease in static pressure, while the total pressure remains constant. This is a direct application of the conservation of energy in fluid flow.
This educational unit is ideal for technical training and laboratory environments, enabling clear visualization and accurate measurement of pressure variations within a Venturi nozzle.
The experimental unit can be easily and securely positioned on the working surface of the FM-100B base module. Water supply and flow rate measurement are provided directly by this module, ensuring simple, efficient, and reliable operation in laboratory and educational environments.
Reference : FM-100.04
Flow rate measurement is a fundamental aspect of measurement technology. The FM-100.04 experimental unit enables students to explore, understand, and apply various flow measurement methods in pipe systems.
Featuring transparent components and integrated measuring instruments, this unit allows direct visualization of internal processes, enhancing practical learning and comprehension of fluid mechanics principles.
This unit is ideal for:
Reference : FM-100.03
The FM-100.03 - Osborne Reynolds Experiment is a didactic training unit designed to clearly demonstrate the flow characteristics of liquids. It enables the visualization of laminar and turbulent flow regimes through a vertical representation of flow lines.
Reference : FM-100.07
The FM-100.07 is an educational unit designed to demonstrate cavitation phenomena in fluid systems. Cavitation occurs when the static pressure drops to the vapor pressure due to increased flow velocity, leading to the formation of vapor bubbles.
These bubbles collapse when pressure rises again, making the process observable and measurable.
The experimental unit can be easily and securely positioned on the working surface of the FM-100B base module. Water supply and flow rate measurement are provided directly by this module, ensuring simple, efficient, and reliable operation in laboratory and educational environments.
Référence : FM-100.08
The FM-100.08 is an experimental unit designed for the comprehensive study of centrifugal pumps. This turbomachine enables users to understand fluid transport principles and to record typical pump characteristic curves.
The unit includes a self-priming centrifugal pump, a ball valve on the outlet side, and manometers on both inlet and outlet sides. It is powered by an asynchronous motor with continuously adjustable speed via a frequency converter.
The experimental unit can be easily and securely positioned on the working surface of the FM-100B base module. Water supply and flow rate measurement are provided directly by this module, ensuring simple, efficient, and reliable operation in laboratory and educational environments.
Reference : FM-100.10
The FM-100.10 is an educational and experimental unit designed to study forces generated by fluid jets. When a flowing fluid is accelerated, decelerated, or deflected, its velocity changes, resulting in a variation of momentum and consequently producing measurable forces.
In practical engineering applications, these forces are used to convert kinetic energy into mechanical work, such as in Pelton turbines.
The unit generates a water jet directed at interchangeable deflectors. The jet is deflected at different angles, producing forces that can be measured.
The jet force is adjusted by varying the flow rate. Experiments allow investigation of:
Measured forces are compared with theoretical values calculated using the momentum equation.
The unit is designed for easy and secure placement on the FM-100B base module.
Water supply and flow rate measurement are provided by the base module. Alternatively, the unit can be operated using a laboratory water supply.
Référence : FM-100.12
The FM-100.12 experimental unit is designed for the detailed study of pressure losses in pipes under both laminar and turbulent flow conditions. During fluid flow through pipes, pressure losses occur due to internal fluid friction as well as friction between the fluid and the pipe wall.
This unit enables the determination of the friction factor, a dimensionless parameter essential for calculating pressure losses. The friction factor is closely related to the Reynolds number, which represents the ratio of inertial forces to viscous forces.
The system allows analysis of the relationship between pressure loss and flow velocity, as well as experimental determination and comparison of friction factors with theoretical values.
The unit includes a small-diameter pipe section where both laminar and turbulent flows can be generated. The Reynolds number and friction factor are determined based on measured flow rate and pressure losses.
In turbulent flow conditions, the pipe is directly supplied from the water network. For laminar flow, a constant pressure is maintained using a standpipe with overflow. Flow rate is controlled using valves.
