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MECHATRONICS, AUTOMATION & COMPUMECHATRONICS
MECHANICS
FLUID MECHANICS
THERMODYNAMICS & THERMOTECHNICS
PROCESS CONTROL
CHEMICAL ENGINEERING
FOOD & WATER TECHNOLOGIES
ENVIRONMENT
BIOMEDICAL ENGINEERING
Physics, Chemical, Biology Education
OPTIKASCIENCE
DATA HARVEST
ERLER-ZIMMER
Maths Education
MECHANICS
Installations and Maintenance
1. PHYSICS
1.1. 3D Physics
2. ELECTRONICS
2.1. Power Supplies, Measurement Equipment and Accessories
2.2. Kits for Circuits Assembly
2.3. Theoretical - Practical Fundamentals
2.3.1. Basic Electrical Laws Concepts
2.3.2. Analog Electronics
2.3.3. Digital Electronics
2.3.4. Semiconductors
2.3.5. Instrumentation & Control
2.3.6. Power Electronics
2.4. Industrial Electronics
2.4.1. Instrumentation & Control
2.4.2. Electrical Servomotors
2.4.3. Power Electronics
2.5. Automotive Electronics
3. COMMUNICATIONS
3.1. Power Supplies, Measurement Equipment and Accessories
3.2. Theoretical - Practical Fundamentals
3.2.1. Coding, Modulation and Signal Processing Theory
3.2.2. Antenna and Microwave Theory
3.3. Applied Communications
4. ELECTRICITY
4.1. Electrical Installations
4.1.1. Home Electrical Installations
4.1.2. Industrial Electrical Installations
4.1.2.1. Maneuver Control and Drives
4.1.2.2. Electrical Risks and Protections
4.2. Home and Building Automation
4.2.1. Conventional Applications
4.2.2. Wireless Zig-Bee Applications
4.2.3. DALI Lighting Automation
4.2.4. KNX/EIB Home/Buildings Automation
4.2.5. BACnet Buildings Automation
4.3. Electrical Machines
4.3.1. Transformers Applications
4.3.2. Generators and Motors Applications
4.3.2.1. AC Electrical Motors and Generators
4.3.2.2. DC Electrical Motors and Generators
4.3.3. Physical Principles and Design of Electrical Machines
4.4. Power Systems, Renewable Energies and Smart Grids
4.4.1. Power Generation and Renewable Energies
4.4.1.1. Generators Synchronization
4.4.1.2. Renewable Energies
4.4.1.3. Power Plants
4.4.1.4. Micro-Grids
4.4.2. Power Transmission and Distribution
4.4.3. Load Management and Control
4.4.3.1. Smart Metering, Energy Management and Net Metering
4.4.3.2. Power Factor Correction
4.4.4. High Voltage Electrical Protections and Cybersecurity
4.4.5. Advanced Smart Grid Power Systems
4.5. Installations and Maintenance
4.5.1. Cutaway Models
4.5.2. Dissectible Models
4.5.3. Installations and Maintenance Training
5. ENERGY
5.1. Power Generation Systems
5.1.1. Renewable Energies
5.1.1.1. Photovoltaic Solar Energy
5.1.1.2. Thermal Solar Energy
5.1.1.3. Wind Energy
5.1.1.4. Marine Energy
5.1.1.5. Geothermal Energy
5.1.1.6. Hydraulic Energy
5.1.1.7. Biofuels
5.1.1.8. Storage Systems
5.1.1.9. Hydrogen Fuel Cells
5.1.1.10. Steam Turbines and Organic Rankine Cycles
5.1.1.11. Other Non-Conventional Systems
5.1.2. Conventional Energies
5.2. Power Systems, Renewable Energies and Smart Grids
5.2.1. Power Generation and Renewable Energies
5.2.1.1. Generators Synchronization
5.2.1.2. Renewable Energies
5.2.1.3. Micro-Grids
5.2.2. Power Transmission and Distribution
5.2.3. Load Management and Control
5.2.3.1. Smart Metering, Energy Management and Net Metering
5.2.3.2. Power Factor Correction
5.2.4. High Voltage Electrical Protections and Cybersecurity
5.2.5. Advanced Smart Grid Power Systems
5.2.6. High Voltage Laboratory
5.3. Installations and Maintenance
5.3.1. Cutaway Models
5.3.2. Dissectible Models
5.3.3. Installations and Maintenance Training
6. MECHATRONICS, AUTOMATION & COMPUMECHATRONICS
6.1. Mechatronics
6.1.1. Control
6.1.1.1. Theoretical-Practical Fundamentals
6.1.1.2. Industrial Controllers
6.1.1.3. Industrial System Applications
6.1.2. Electronics
6.1.2.1. Sensors and Electronic Instrumentation
6.1.2.2. Power Electronics and Industrial Electronics
6.1.3. Hydraulics and Pneumatics
6.1.3.1. Hydraulics
6.1.3.2. Pneumatics
6.1.4. Mechatronic Software
6.2. PLC Automation
6.2.1. PLC Options
6.2.2. Hardware Emulators
6.2.2.1. Manufacturing Systems
6.2.2.2. Flow and Level Control
6.2.2.3. Transport and Sorting
6.2.2.4. Electrical Machines Control
6.2.2.5. Traffic & Parking Control
6.2.2.6. Home and Office
6.2.3. Instrumentation and Control with PLC
6.2.4. Industrial Applications with PLC
6.2.5. Workstation Applications with PLC
6.2.5.1. Pieces Feeding Workstations Applications
6.2.5.2. Processing Workstations Applications
6.2.5.3. Rotary Table Workstations
6.2.5.4. Pieces Manipulator Workstations Applications
6.2.5.5. Robotic Workstations Applications
6.2.5.6. Pieces Identification Workstations Applications
6.2.5.7. CNC Workstations Applications
6.2.5.8. Storing Workstations Applications
6.2.6. Flexible Manufacturing Systems with PLC
6.3. PLC Compumechatronics
6.3.1. Electricity
6.3.2. Energy
6.3.3. Renewable
6.3.4. Saving Energy
6.3.5. Mechanics
6.3.6. Fluid Mechanics
6.3.7. Thermodynamics & Thermotechnics
6.3.8. Chemical Engineering
6.3.9. Food & Water Technologies
6.3.10. Environment
6.3.11. Process Control
7. MECHANICS
7.1. Mechanical Engineering
7.1.1. Mechanics Fundamentals KITs
7.1.2. Simple Machines
7.1.2.1. Mechanisms
7.1.2.2. Gears
7.1.3. Statics and Dynamics
7.1.4. Vibrations and Oscillations
7.1.5. Tribology (Friction)
7.1.6. Structural Mechanics
7.2. Automotive Mechanical Engineering
7.2.1. Brakes and Clutches
7.2.2. Gears, Differentials and Transmissions
7.2.3. Engines
7.3. Materials Engineering
7.3.1. Photoelasticity and Strain Measurement
7.3.2. Materials Testing
7.3.2.1. Mechanical Test
7.3.2.2. Thermal and Acoustic Tests
7.3.3. Manufacturing and Treatment Techniques
7.3.3.1. Casting
7.4. Installations and Maintenance
7.4.1. Cutaway Models
7.4.2. Dissectible Models
7.4.3. Installations and Maintenance Training
8. FLUID MECHANICS
8.1. Fluid Mechanics Modular Laboratory
8.1.1. Base Units
8.1.2. Measurement
8.1.3. Hydrostatics
8.1.4. Hydrodynamics
8.1.5. Flow Visualization
8.1.6. Hydraulic Machines: Pumps
8.1.7. Hydraulic Machines: Turbines
8.1.8. Hydraulic Piping System
8.2. Measurement
8.3. Hydrostatics
8.4. Flow Visualization
8.5. Hydraulic Channels
8.6. Wind Tunnels
8.7. Fluid Machines
8.7.1. Pumps
8.7.2. Fans
8.7.3. Turbines
8.7.4. Wind Turbines
8.7.5. Compressors
8.8. Fluid Piping System
8.9. Installation and Maintenance
8.9.1. Cutaway Models
8.9.2. Dissectible Models
8.9.3. Installations and Maintenance
9. THERMODYNAMICS & THERMOTECHNICS
9.1. Fundamentals and Basic Concepts of Thermodynamics
9.2. Heating, Ventilation, Air Conditioning and Hot Water
9.3. Heat Pumps
9.4. Refrigeration
9.5. Thermal Hydraulic Piping System
9.6. Heat Transfer
9.7. Heat Exchangers
9.8. THERMAL Machines
9.9. Internal Combustion Engines
9.10. Installations and Maintenance
9.10.1. Cutaway Models
9.10.2. Dissectible Models
9.10.3. Installations and Maintenance Training
10. PROCESS CONTROL
10.1. Theoretical - Practical Fundamentals
10.2. Controllers & Industrial Communications
10.3. Industrial Applications and System
11. CHEMICAL ENGINEERING
11.1. Unit Operations
11.1.1. Fluidization
11.1.2. Evaporation
11.1.3. Boiling
11.1.4. Distillation and Cracking
11.1.5. Extraction
11.1.6. Difussion
11.1.7. Drying and Cooling
11.1.8. Absorption and Adsorption
11.1.9. Ion Exchange and Corrosion
11.1.10. Crystallization and Pyrolysis
11.1.11. Filtration, Sedimentation and Mixing
11.1.12. Solids Treatment
11.2. Chemical Reactors
12. FOOD & WATER TECHNOLOGIES
12.1. Food Treatment
12.2. Dairy Products Treatment
12.3. Drinking Water Treatment
12.4. Pilot Plants
13. ENVIRONMENT
13.1. Hydrology and Hydrogeology
13.2. Environmental Pollution
13.3. Wastewater Treatment
13.4. Recycling
14. BIOMEDICAL ENGINEERING
14.1. Biomechanics
14.1.1. Mechanics Fundamentals KITs
14.1.2. Simple Machines
14.1.2.1. Mechanisms
14.1.2.2. Gears
14.1.3. Statics and Dynamics
14.1.4. Vibrations and Oscillations
14.1.5. Tribology (Friction)
14.1.6. Structural Mechanics
14.1.7. Photoelasticity and Strain Measurement
14.1.8. Mechanical Tests
14.1.9. Thermal and Acoustic Tests
14.2. Biomedical Electronics
14.2.1. Theoretical-Practical Fundamentals
14.2.1.1. Basic Electrical Laws Concepts
14.2.1.2. Analog Electronics
14.2.1.3. Digital Electronics
14.2.1.4. Semiconductors
14.2.1.5. Instrumentation and Control
14.2.1.6. Power Electronics
14.2.2. Instrumentation and Control
14.3. Biomedical Equipment
CMTM Cutaway Models of Transmission of Motion Units
Accessories
WGCM Unit to Study a Worm Gear Cutaway Model
MGCM Unit to Study a Mitre Gear Cutaway Model
SGCM Unit to Study a Spur Gear Cutaway Model
SGCM/2 Unit to Study a Two-Stage Spur Gear Cutaway Model
PGCM Unit to Study a Planetary Gear Cutaway Model
BDCM Unit to Study a Variable Speed Trapezoidal Belt Drive Cutaway Model
CGCM Unit to Study a Control Gear Cutaway Model
DCCM Unit to Study a Multiple-Disc Clutch Cutaway Model
BCM Unit to Study a Bearing Cutaway Model
SJBA Unit to Study a Shaft with Journal Bearings Assembly
ADSG Unit to Study the Alignment of Drives, Shafts and Gears
HJBA Unit to Study a Hydrodynamic Journal Bearing Assembly
MDUC Computer Controlled Machine Diagnosis Unit
SGA Spur Gear Assembly Unit
MDU Machine Diagnosis
The family of Machine Diagnosis Unit, "MDU", of Edibon, allows you to perform vibration measurement practical exercises, measuring the displacement, velocity and acceleration of vibrations in the time-frequency range. The family of Machine Diagnosis Unit, "MDU", of Edibon, allows you to perform vibration measurement practical exercises, measuring the displacement, velocity and acceleration of vibrations in the time-frequency range. The MDU Base Unit, "MDU-UB", components are mechanical elements such as: flexible couplings for compensating misalignments, bearings with easily removable roller bearings, two rotor ...
Accessories
MDU-MLB Mobile Structure for MDU
The Mobile Structure for MDU, "MDU-MLB", is a robust structure designed to quickly and easily assemble the various elements of the MDU Base Unit, "MDU-UB" or the Computer Controlled Machine Diagnosis Unit, "MDUC", and thus assemble a mobile test bench for machine diagnosis. The Mobile Structure for MDU, "MDU-MLB", is a robust structure designed to quickly and easily assemble the various elements of the MDU Base Unit, "MDU-UB" or the Computer Controlled Machine Diagnosis Unit, "MDUC", and thus assemble a mobile test bench for machine diagnosis. This structure consists of a slotted table with anodized aluminum fr...
MDU-SM Top Table Structure for MDU
A bench-top structure consisting of a slotted table with anodized aluminum frames of 1100 x 770 x 820 mm. It has a transparent protective cover that protects against the rotating parts and allows us to observe the different experiments. The cover includes a safety switch for automatic stop if opened....
MDU-SSC Software, Sensors and Control for MDU Unit
The aim of the vibration analyzer is to assess the machine diagnosis testing with the different kits related to the vibration interface technology. The system consists of two acceleration sensors, a speed sensor, a measuring amplifier with adjustable amplification degree, a USB box and the analysis software. The analysis software has the following features: two-channel oscilloscope (studies in the time domain), two-channel spectrum analyzer (studies in the frequency domain), vibration intensity gauge, analysis of shock effects and damage in roller bearings, filter for acceleration curve recording, orbit represe...
MDU-BLU Break and Load Unit
The Break and Load Unit, "MDU-BLU", of EDIBON is a magnetic particle brake, a display unit and an electrical control. It is possible to precisely adjust the braking moment. The excitation current is used as a measurement of the braking moment and it can be displayed through a console. The braking unit consists of an integrated drive belt and a second projecting shaft, thus it has two speed ranges and two moment ranges. The power generated is converted into heat by the brake and evacuated to the outside through a fan....
MDU-SES Set of Elastic Shaft
The Set of Elastic Shaft, "MDU-SES", of EDIBON allows to study the behavior of an elastic rotor subjected to imbalance and balance of elastic rotors in operation. It is possible to study the resonance and the phenomena occurred in subcritical and supercritical regimes with the Displacement Sensors for MDU Unit, "MDU-SD". The Set of Elastic Shaft, "MDU-SES", includes some oscillating ball bearings that guarantee the total shaft movement, and the protective bearings limit the amplitude in areas close to the resonance to non-hazardous values....
MDU-SRS Set of Rotating Shaft with Crank
It is important that fissures resulting from material fatigue in rotating machines are detected in good time before the breakage occurs, which usually leads to fatal consequences. The Set of Rotating Shaft with Crank, "MDU-SRS", consists of two shafts with different lengths, the short shaft simulates a projecting shaft end and the load is transmitted with the belt drive of the Set of Belt Drive, "MDU-SBD", whereas the long shaft is used with a protective bearing of the Set of Elastic Shafts, "MDU-SES", and a flywheel in order to study a shaft fissure in the case of an elastic rotor. With the Set of Rotating Sha...
MDU-SRBF Set of Roller Bearings with Faults
To determine the remaining life cycle of a roller bearing and decide on its replacement, the slow variation of the vibration spectrum is analyzed. The spectral distribution will enable to draw accurate conclusions about the type of defect and its location. The Set of Roller Bearings with Faults, "MDU-SRBF", has six roller bearings with which to check and explain several faults in roller bearings, such as: damaged outer ring, damaged inner fault, damaged rolling element, combined damage, very used and new and non-faulty. The radial bearing load may be adjusted within certain limits through the Set of Belt Drive,...
MDU-SCO Set of Couplings
The Set of Couplings, "MDU-SCO", allows to compare the properties of different couplings such as curved tooth, bolt, flange and claw couplings. The vibrational behavior of the different types of couplings is important to draw conclusions about faults or defects in the manufacturing or assembly of rotating machines. The usual faults are eccentricity, oscillation and pitch errors. The Set of Couplings, "MDU-SCO", consists of different couplings to make shaft connections, allowing the study of different types of couplings, faulty and non-faulty....
MDU-SBD Set of Belt Drive
The belt drives are noiseless drive devices, have a long life and require little maintenance provided that its design, assembly and adjustment are correct. The Set of Belt Drive, "MDU-SBD", allows to study the conditions that cause vibrations or slip in belts. The set consists of three belts, three pulleys and a set of tensioning rollers and a belt pre-tension meter....
MDU-SSDG Set to Study Damage in Gears
The Set to Study Damage in Gears, "MDU-SSDG", allows to study the vibrational behavior of gears with typical defects. For that purpose, gears with tooth defects and gears without defects are included, so a comparative study can be carried out. The gears included in the set are helical and straight-toothed gears. Due to the importance of lubrication in the vibrational signal of the unit, this may be lubricated with grease and gear oil. The system allows to vary the gear distance and clearance between the teeth....
MDU-SCM Set of Crank Mechanism
The compressors and pumps frequently use crank and connecting rod mechanisms. The force and mass oscillations cause vibrations in the units. The Set of Crank Mechanism, "MDU-SCM", allows to adjust the stroke, mass compensation and bearing clearance, as well as the speed, to simulate vibrations. The load is exerted by springs. When you want to simulate the force obtained by a gas compression, a higher torque is required, for which it is recommended to use the Set of Belt Drive, "MDU-SBD", or the Set to Study Damage in Gears, "MDU-SSDG"....
MDU-SSCP Set to Study Cavitation in Pumps
Pump cavitation is produced when steam cavities are created within a fluid in which forces act responding to the pressure differences. Cavitation causes noise, damage to components and loss of performance. The Set to Study Cavitation in Pumps, "MDU-SSCP", allows to produce the cavitation phenomenon and study its vibrational response. The Set to Study Cavitation in Pumps, "MDU-SSCP", consists of a single-stage centrifugal pump connected to flexible tubes with a tank. It is possible to adjust different operating conditions with valves and manometers. Furthermore, it is possible to observe the inside of a pump in...
MDU-SSVF Blower Vibration Set for MDU
In the Blower Vibration Set for MDU, "MDU-SSVF", the vibrations are magnetically induced. It is possible to study three impellers with a different number of movable vanes. It is also possible to study the gyroscopic effect by mounting the flywheel plate at an oblique angle. A regular fault in the rotation of the roller is induced by the action of a magnet. The blower can be driven directly through an elastic coupling or the Set of Belt Drive, "MDU-SBD"....
MDU-SEV Set of Electromechanical Vibrations
Among the drive systems are the asynchronous motors, which generate vibrations in machines. This is the case with an asymmetric air gap (space between rotor and stator), in which the magnetic vibrational forces induce torsional and bending vibrations. In the event of a partial failure of the electrical windings, mechanical vibrations are produced in the asymmetrical magnetic field. The Set of Electromechanical Vibrations, "MDU-SEV", is an adjustable unit that allows to adjust an asymmetric air gap or to disconnect a winding, generating an electromagnetic asymmetry and thus it is possible to study its vibration...
MDU-SD Displacement Sensors for MDU Unit
Two displacement sensors which, together with the Set of Elastic Shaft ,"MDU-SES", and the Software, Sensors and Control for MDU Unit, "MDU-SSC", allow you to represent subcritical and supercritical shaft orbits in resonance....
CGA Combined Gear Assembly Unit
VMSC Computer Controlled Unit to Study Vibrations in Machine Supporting Structures
MSCT Screw Joint Testing Unit
MSLG Unit to Study Lathe Gears
MDSU Basic Unit of Mechanical Drive Systems
RGT Rigging Training Unit
The Rigging Training Unit, "RGT", has been designed for the study of techniques to move loads of various shapes, sizes and types safely. The unit consists of an adjustable height gantry frame made of welded steel and beam attachment points. The unit includes different devices such as pins, ropes, slings, chains, bars and tools to move and install machines, assemble the gantry crane, lift various shaped construction materials, lift hand powered and power lifting mechanisms, moving a machine using a double-chain sling, etc. Besides, the student can perform safety inspections on all lifting apparatus equipment. ...
Laboratory
7TV
Technical and Vocational Education Mechanics and Materials Laboratory
7HE
Higher Education Mechanics and Materials Laboratory
Expansions
ICAI
ECL
ESN
ELK
FSS
PLC