Motion Control Learning System Single Axis applies to a wide range of industries that need to meet market demands for greater system throughput and improved output quality and precision. Some of these industries include automotive, energy, medical, petroleum, printing, and packaging. Motion Control Learning System Single Axis is used where conventional motor control, using discrete inputs and outputs, cannot achieve the accuracy needed to produce a product. A motion controller sends acceleration and velocity commands to each motor to control its speed, torque, and rotor position. At the same time the motion controller monitors these parameters and adjusts the output as needed to create a legible color image on the page. A good example of motion control is an offset printing press that uses four motors to print four separate colors on a page and another motor to turn the feed roll. Motion Control Learning System Single Axis is self-contained and teaches students to control one axis. It allows students to learn industry-relevant skills including how to create, navigate, configure, operate, maintain, and apply motion control systems. Motion Control Learning System Single Axis teaches the skills required to understand and maintain the sophisticated applications so commonly found in modern industry. The motion control action may be as simple as opening and closing a valve or as complex as controlling multiple axes on a CNC machine. Motion Control Learning System Single Axis includes a tabletop workstation, motion controller with control programming software, tensioning kit, synchronization kit, registration kit, timing kit, communication cables, lockout/tagout kit, student curriculum, and instructors assessment guide. The Motion Control Learning System Single Axis system provides instruction in motion control for a single axis system, including set-up, operation, programming, and control.
Features:
Students Learn Skills In Motion Control Programming
Reliable, Industry Standard Components and Features
Teaches Applications of Motion Control In Industry
Optional Online eBooks.
Underfloor heating systems are particularly well suited for use with heating systems that use solar thermal collectors. Underfloor heaters transfer heat by piping systems arranged in a spiral or winding pattern beneath the floor covering. Underfloor heating requires much lower feed flow temperature than conventional radiators.
Learning objectives/experiments:
Heat transfer in an underfloor heating system
Use of heat sources for heat pump systems
Energy balance in combined heating systems for domestic hot water production and heating
Learning objectives of the modular system.
The automatic data acquisition and analysis system for Personal Computer allows to take the measurements automatically, plot on screen or print out and file the test data. The Pressure Transducers Study Module allows to study the calibration methods for a signal conditioner instrument connected to a pressure transducer and to verify the system linearity, repeatability and hysteresis.
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The unit provides for various investigations including single phase flow, hydrostatic and dynamic pressure investigations, hold-up time and slip velocity, 2-phase separation and superficial velocity, drift velocity in air/water flow, 2-phase flow, 2-phase and 3-phase flow separation rates, bubble structures and bubble sizes. The Multiphase Flow Unit which is particularly suitable for oil and gascourses enables students to study 2- and 3-phase flow (oil, water and compressed air) by means of once through experimental runs followed by gravitational separation. The unit is operated via a touch-screen PC with SCADA software and may be specified with an electrical capacitance tomography sensor option for advanced studies in flow and bubble structure imaging.
Features:
Industries largest operating envelope
Exceptional dynamic response time
Compact and robust design
Qualified and covers all environments
No separation required
No moving parts
100% gas void fraction capability.
The system uses a manual automotive gear. The input shaft is driven a motor dynamometer via a belt and pulleys. Speed is controlled by an inverter. The output shaft is attached to an eddy current absorber dynamometer. The Automotive Gear Study Unit is for studying the acceleration of an automotive gear system as well as gear system efficiency under different gear ratios and speeds. The system requires outside water supply for water brake absorber cooling. The unit is on steel frame with adjustable footings. The gear output shaft is extended for a study of inertia of a mass and equivalent enertia of the gear system.
Experiments:
Equivalent inertia of the gear.
Effect of speed and load on efficiency.
Input power, output power and efficiency.
Computer interface unit and software are included. The Two Hinged Parabolic Arch Computer Interface set has the same accessories as except Horizontal Force Support is replaced by Horizontal Force Load Cell.
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The Heat Pump in Air Conditioning Training Bench has been designed and manufactured to incorporate all current safety standards.
A Heat Pump in Air Conditioning Training Bench for studying the theoretical and practical aspects of the use of heat pumps in air conditioning systems.
The refrigerant used complies with anti-pollution legislation.
Experiments:
Analysing system behaviour and reactions with the variation of condenser and evaporator air flow
Plotting the cycle in a refrigerant pressure-enthalpy diagram
Studying the operation of a heat pump
Studying the operation of a cycle reversing valve.
The apparatus is supported on a PVC base into which a vertical water supply pipe is fitted. Surrounding the supply pipe is a transparent plastic shield fitted with a top PVC flanged cover assembly. Impact of Jets apparatus enables experiments to be carried out on the reaction of a jet of water on vanes of various forms. In operation, water from the Hydraulics Bench is fed into the unit and a vertical jet is produced through the supply pipe and its interchangeable nozzle. The water from the jet is deflected by the reaction vane under test, and drains away through the large aperture in the base of the chamber. The reaction vane is held within the transparent shield approximately 20 mm above the vertical water supply pipe nozzle by a rod which passes through the top cover and supports a flat tray, onto which masses may be placed. Three different types of reaction vane are supplied with the apparatus and the types are flat, hemispherical cup and 45° cone form. The force produced by the jet impinging on the target is transmitted by the rod, to the flat tray where weights are placed in order to balance this transmitted force. Two interchangeable nozzles for the supply pipe are supplied, one of 8 mm and one of 5 mm diameter. Each vane can be secured to the pivot arm by a set screw and when not in use is stored on pegs on the unit base plate.
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The measurements, which can be performed varying the operation conditions, can be easily compared with data resulting from the theory. The educational Mini-Pelton action turbine allows to study the typical parameters of action turbines. The group is supplied with manuals which describe all parts of the Pelton Turbine Study Unit Bench Top Model unit, the installation and utilisation procedures, aswell as many exercises with the relative results. The plant is easy to control and needs a little periodic maintenance.
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The Mini Pelton Turbine Test Set unit consists of a storage tank on a steel base, a pump, a turbine, a dynamometer, and measuring instruments. The adjustable nozzle direct a water jet to the runner buckets. Mini Pelton Turbine Test Set is a self contained bench top set for studying the Pelton turbine characteristics under various flow rates and heads.
Experiments:
Power output vs speed for various heads and flow rates.
Efficiency vs speed for a given head and flow rate.
Torque vs speed at various heads and flow rates.
Racing characteristics.
Experiments:
The flexible design of the equipment allows the user to develop many other analysis and control exercises to suit their needs. It is good for extended or advanced control experiments, and is ideal for student project work.
Design of state re-constructors to obtain estimates of ball velocity and position
Design of analogue phase-advance compensators
Measurement of system dynamics by transient and closed-loop methods
Essential Services.
Bench space needed: 1.5 m x 750 mm
Electrical supply: 90 VAC to 250 VAC, 0.4 A, 50/60 Hz, with earth.
The program consists of a trainer built with genuine equipment and educational materials to teach the fundamentals of Common Rail fuel injection and engine control. The electronics are faulted in order to create problems in the fuel system for student diagnosis and practice. Cummins Diesel Trainer is constructed from a Cummins type vehicle, using an electronically controlled Diesel fuel injection.
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The Turbofan Engine Cutaway Model is powered by an AC motor to turn freely to demonstrate the phased operation of compressor and turbine.
Engine Features:
Fan/Compressor Stages: 1/8
Length (Inches): 75.5
Core / Power Turbine Stages: 2/1
Max Diameter (Inches): 33
Bypass Ratio: 2.0
Dry Weight (Lbs.): 725 - 737.
Cutaway Features:
Motorized cutaway on engine stand with casters
Cutaway provides a clear view of the:
Compressor Section
Combustion section
Turbine section.
Unsymmetrical Cantilever Apparatus Angular adjustment can be made easily and the angular position can be read off using the integral angular scale and pointer. The free end of the cantilever has point loads applied using the load hanger and calibrated weights. Unsymmetrical Cantilever Apparatus allows the vertical and horizontal deflections of the free end of a test specimen to be measured when loading occurs along a principle axis or at a known angle. Unsymmetrical Cantilever Apparatus holds the indicators relative to the rigid end of the cantilever to ensure accurate deflection measurement. A solid base holds a rigid vertical end support for the clamping of the test cantilevers. Test cantilevers and rectangular cross section are supplied. The free end movement is measured using deflection indicators. Shear centre work can also be undertaken.
Experimental Capabilities:
Vertical and horizontal deflection of unsymmetrical cantilevers
Shear centre location
Comparison between actual and theoretical results
Moment of area
Mohrs circle
Daily Ice Making Capacity: 20kg/24h
Water Tank Capacity: 1L
Automatic Overflow Protection
Ice Shape: cube of approx. 13gm each
Installation: Freestanding Air Cooled
Minimum Cycle Time for First Ice Made: 30 minutes
Nonremovable ice bin
Voltage: 220V-230V/50Hz
Ice Bucket Capacity: 4kg (approx. 310 ice cubes).
Vaccine storage capacity: 100L
Volume category: >/= 60, < 120L
PQS Prequalified Intermittent Mains Powered Refrigerator for storage of vaccines at +2 ?C to+8?C.
Operating temperature: Min and Max rated ambient temperature: +5 °C and +43°C
UIFPF- Grade A
Refrigerant: R600a, 80 grams
Equipment operating voltage and frequency: 220-240 Volt and frequency 50Hz / 60Hz, 1ph.
Newborn simulator to facilitate learning complete newborn care,including cord cutting and ligation, as well as newborn resuscitation, dark complexion
Texture of the simulator: soft and smooth, friction free to demonstrate the desired procedures. Realistically sculpted to resemble and simulatea baby, anatomically accurate and feeling smooth / resilient / bony as relevant and suitable for simulation.
Simulator consists of a dark skin manikin, that has an appearance andsize of full term infant with umbilical cord.
Material of the simulator: TPU (primary Thermoplastic polyurethane - TPU (primary material for body skin), Poly vinyl chloride - PVC (primary material in chest and face skin) silicone rubber, Polyoxymethylene - POM, Polypropylene - PP, and iron/steel.
Material: Nickel plated brass.
Pin, safety, medium size, for securing wraps and bandages.
Length: medium size, 40mm.
High performance, high quality, single piston portable foot-operated suction pump
For pharyngeal and tracheal aspiration, and other minor medical procedures
Piston, with diaphragm valve, is sealed with removable elastic O-ring
Large stable base is entirely fit with anti-slip, preventing the pump from gliding-away while in use
Vacuum, maximum: - 70 kPa (ca. - 700 mbar)
Pedal movement generates suction every time it’s depressed
Integrated spring, returns the pedal to its initial ready-to-use position
Lever minimises pedal force required to reach maximum flow
For operator’s comfort, pedal should support at least 20 cm of the foot, and distal-end displace maximum 9-11 cm
Container is transparent, allowing assessing collected volume
Wide opening at the top of the container allows for easy and thorough cleaning
Basic essential design without manometer
Air-flow, maximum: 30 to 40 L/min (such as at two pumping strokes per second)
Collection capacity container: 900-1100 ml
Operating temperature range: -20 C to +50 C
All parts can be autoclaved at 121 C
The suction pump set can be entirely disassembled, facilitating proper cleaning and disinfection.
Materials:
All parts are manufactured from high-strength, durable material, not requiring specific maintenance or storage conditions
Foot pedal: aluminium or equivalent sturdy plastic, fit with embossed anti-slip relief
Conical suction tip: Acetal or equivalent tough plastic
Aspirating tube: silicone rubber
Container: transparent polycarbonate or equivalent sturdy transparent plastic
Bottom: rubber or equivalent anti-slip material
Gasket, O-rings and valve diaphragm: silicone rubber or equivalent
Piston O-ring: Teflon or equivalent.
For transverse occlusion of a section of intestine while suturing, resection or ananastomosis.
Material: Martensitic steel (quenched, magnetic steel).
Martensitic steel composition: 0.15-0.20% carbon, 12-13% chromium.
Reusable.
Occlusion: The form and mechanical action must permit precise closing.
Adhesion: Provided by the surface of the jaws.
Smooth, springy jaws with atraumatic longitudinal serrations.
Length: 23 cm.
Pressure force instrument: intestinal clamp, springy
Non-crushing clamp, curved.
Long jaws and shorter shanks.
