Amatrol’s High School Learning Systems create the need for students to want to learn math and science – they can’t interact with the exciting technology without it. Learning is interactive and challenging, keeping them engaged and wanting to do more. The math and science so desperately needed for 80% of jobs today is a natural outcome.
Amatrol’s Hydraulics 3 Learning System (96-HYD3) builds upon the knowledge and skills taught by the Hydraulics 1 and Hydraulics 2 training systems. The Hydraulics 3 training system focuses on more advanced skills and topics, such as hydraulic relief valve operation, hydraulic check valve circuit design, and accumulator applications.
The Hydraulics 3 training system curriculum uses the same Intermediate Hydraulic Valve Module as the Hydraulics 2 training system, which features real-world, heavy-duty hydraulic components students will encounter on the job. These components include control valves, relief valves, flow control valves, check valves, and accumulators. The in-depth multimedia curriculum teaches learners both relevant knowledge and hands-on skills related to these components, such as pump unloading applications, pressure port check valve circuits, and accumulator circuits and sizing.
Amatrol’s Mechanical Systems 1 Learning System (96-MEC1) builds basic mechanical technical knowledge by focusing on the fundamentals of basic mechanisms and simple mechanical systems. This learning system is ideal for future technicians and engineers because it begins with the building blocks of mechanical systems, first conceptually with topics like force, torque, and velocity, and then continues with hands-on skill-building with components like levers, wheels, and inclined planes. Combining theory with skills and components, learners will practice constructing various mechanical systems, taking various measurements, and making a wide array of calculations.
The 96-MEC1 workstation features level 1 and level 2 mechanical components including linkages, cams, turnbuckles, pulleys, and gears. This learning system also includes strong mechanical curriculum with a stunning depth and breadth of knowledge that shows how mechanical concepts are applied in real-world applications such as gear trains, wiper linkages, hoists, and many more!
Amatrol’s Measurement Tools 1 Learning System (950-MES1) teaches learners the fundamental principles of measurement, including basic and precision measurement and direct and indirect gauging. The concepts and skills covered in Amatrol’s in-depth curriculum are critical and used in every manufacturing plant in the world by inspectors, machinists, manufacturing engineers, and others to determine if parts meet quality standards. After all, the ability to produce quality products begins with determining whether a product meets specified dimensions.
Using Amatrol’s comprehensive multimedia curriculum, learners will study a variety of measurement topics, including: digital and dial calipers; dimensional gauging; statistical process control; control chart operation and analysis; geometric dimensioning and tolerancing; and location, orientation, and form tolerances. The measurement tools training system also includes industrial-quality components, such as a tabletop workstation, measurement tools like digital and dial calipers, variable length shafts and diameter disks, and more! The combination of robust curriculum with real-world equipment gives learners practical, hands-on experience with instruments they’ll encounter on the job.
Amatrol's Measurement Tools 3 Learning System (96-MES3) teaches the high demand skills of conventional and geometric dimensioning and tolerancing, a key component of quality assurance. General Dimensioning & Tolerancing (GD&T) techniques are common practice offered by the 96-MES3 will provide learners with marketable skills. The 96-MES3 covers basic GD&T information and skills before focusing on three main areas: location tolerances, orientation tolerances, and form tolerances.
Amatrol's Machine Tools 1 Learning System (96-MP1) is a comprehensive resource that explores the uses and functionality of two essential manufacturing tools: the band saw and the drill press. Through this system, learners engage in safe practices for cutting raw materials precisely and creating various hole types, such as countersink, counterbore, reamed, and tapped, crucial for manufacturing applications. Understanding the applications and safe operation of the drill press and band saw is vital for anyone entering the workforce in manufacturing.
This learning system encompasses multimedia curriculum materials, an instructor's guide, installation guide, and a student reference guide. Schools have the option to use their own equipment or acquire Amatrol's Manual Machine Tool Package, which includes essential tools like a band saw, drill press, bench vise, and belt sander. These components, combined with the multimedia curriculum, cover essential topics like stock selection, band saw components, drill press tooling, and tapping and chamfering techniques. Developed as part of Amatrol's Project Based Learning initiative, this system not only imparts technical knowledge but also fosters problem-solving, teamwork, and STEM skills. It serves as a strong foundation for careers in engineering, manufacturing, and related fields or can function as a standalone educational tool.
Amatrol's Machine Tools 2 Learning System (96-MP2) begins by explaining how to use basic hand tools, like a hacksaw and a file, and then focusses on manual milling machine operation and its real-world applications. The milling machine is a flexible and widely-used piece of industrial equipment that is utilized extensively in machine shops and maintenance departments. This learning system requires Amatrol's Machine Tools 1 Learning System, a manual milling machine with tooling and raw materials.
Amatrol's Machine Tools 3 Learning System (96-MP3) focuses on the components, function and operation of the manual lathe. The lathe is a machine tool used for machining round parts and is found in almost all manufacturing facilities and machine shops. Machine Tools 3 requires the Machine Tools 1 Learning System (96-MP1), a computer, and a customer-supplied manual lathe.
Mechanical fabrication plays an important role in today’s economy as the cost to produce goods increases and the profit margins shrink. To stay competitive, companies must manufacture high quality goods. In our information based world, learners increasingly do not have knowledge or skills for mechanical fabrication. Amatrol’s Mechanical Fabrication 1 Learning System (96-MPF1) focuses on the safe application of basic hand tools used in assembly.
The Mechanical Fabrication training system includes real-world hand tools and associated components such as screwdrivers, wrenches, and sockets for hands-on skill-building. Learners will gain hand tools training and basic assembly skills training by practicing skills like: inspecting and installing a threaded fastener; using fixed, adjustable, Allen, and ratchet wrenches to tighten threaded fasteners; and installing pipe thread and straight thread pneumatic fittings. This hand tools training system also includes interactive multimedia curriculum, an instructor’s assessment guide, an installation guide, and a student reference guide. Amatrol combines equipment, strong print-based curriculum, and interactive multimedia so that learners can study and practice mechanical fabrication skills in the style that they need.
TECHNICAL TRAINING FOR AGRICULTURE
When it comes to industries, agriculture can stake its claim to being one of the oldest industries in the world with a history that stretches back over 12,000 years. What began with small groups of people in different parts of the world figuring out how to domesticate animals and grow their own food has become a multi-trillion-dollar industry that connects nations across the globe.
Sparked by a series of industrial revolutions, major changes have taken place throughout industry over the last couple of centuries. These same changes have shaped agriculture over the years. Manual processes and hand tools were replaced with machines. Technological advances, including computers and the Internet, have made agricultural machines and processes more productive and efficient.
As technology continues to advance, agriculture must keep evolving to ensure that productivity keeps pace with an ever-expanding world population. In fact, today’s agricultural experts need experience with more types of technology than ever before.
Today's agriculture experts need experience with more types of technology then ever before.
Amatrol’s Mechanical Fabrication 2 Learning System (96-MPF2) adds to Mechanical Fabrication 1 to expand a learner’s knowledge of hand tools. This Mechanical Fabrication training system covers more sophisticated assembly training and components including fasteners, torque wrenches, power tools, and many more. This hand tools training system expands on basic hand tools used in assembly.
This basic hand tools training system includes a bench vise, torque wrench, cordless drill, dead blow hammer, needle nose pliers, and more. Learners use these real-world components to practice skills like using a vise to hold parts during assembly, performing an assembly task with pliers, and using a twisted safety wire to lock a nut. This assembly skills training system also includes interactive multimedia curriculum, an instructor’s assessment guide, an installation guide, and a student reference guide.
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Item Number:BH-85Each Basic Hydraulics training system features standard industrial grade components. This attention to quality gives students experience they would normally only get on-the-job by helping them recognize industrial components and how to troubleshoot them more effectively. Components included with Basic Hydraulics are pre-mounted on circuit panels with silk-screened labels next to each, which facilitates ease of use and identification. -
Item Number:85-BPAmatrol’s Basic Pneumatics training system (85-BP) introduces pneumatic principles through a combination of Amatrol’s top-flight multimedia curriculum with hands-on industrial pneumatic skill-building. Topics covered in this learning system include single-acting cylinder circuits, pressure vs. cylinder force, and flow control valves, while the panels can be used to practice skills such as connecting and operating a needle valve to control actuator speed. -
Item Number:85-EHThe Electro-Hydraulics training system includes an electrical control panel with relay control components and an electrical valve module with solenoid-operated hydraulic directional control valves and electrical/electronic sensors. These components will be used to study a variety of topics including electrical control systems, basic control devices, power devices, control relays, sequencing control, timer control, pressure control applications, and circuit applications. -
Item Number:CR-35iAFANUC’s new CR-35iA is the world’s first collaborative robot with a payload capacity of up to 35 kg. Fenceless, it opens a whole new world of possibilities. Working safely side by side with human operators, it is space as well as cost saving. And because inside it’s like any other FANUC robot, it operates like all FANUC robots. Certified to meet the requirements of ISO 10218-1:2011 and RIA/ANSI R15.06-2012, FANUC’s CR-35iA collaborative robot can work in a variety of applications alongside human workers including: machine tending, handling heavy payloads that require lift assist devices or custom equipment, higher payload mechanical assembly, palletizing or packing, and tote or carton handling. -
Item Number:CR-4iACR-4iA is a small collaborative robot with 4 kg payload -
Item Number:CR-7iAThe FANUC CR-7iA is FANUC's newest collaborative robot resembles the LR Mate family. Painted green to show it's ability to work beside humans, you can expect the same reliability as FANUC's yellow robots. The CR-7iA is ideal for small part sorting and assembly, inspection, machine tending, and part delivery. It has a 7 kg payload, 717 mm reach, and is equipped with iRVision and Force Sensing. There are a variety of mounting options such as floor, wall, and ceiling. -
FANUC’s new SCARA robots are ideal for high-speed, precision applications such as assembly, pick and place, testing/inspection and packaging processes. -
In the rare event that a burning ember or spark is drawn into the fume extraction unit, there is the possibility that debris in the filters could ignite. Although any resultant fire would typically be retained within the fume extraction unit, this would cause significant damage and in extreme circumstances, the risk may extend beyond the extraction unit. For processes where such risks have been identified, additional protection in the form of an in-line firebox is an additional precaution.
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The BOFA inline pre-filter 1000 has been designed specifically for applications that generate high amounts of dust or particulate.
This inline filter unit is positioned alongside the main BOFA fume filtration system to increase the overall filter capacity and extend the life of the main filters. The DeepPleat DUO pre-filter incorporates a massive drop-out chamber within the filter, having a volume area of 15ltrs. Above the drop-out chamber but still within the housing there is a sealed 200mm deep pleat layer of F8 media giving a surface area in excess of 30 sq meters.
