Each 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.
Amatrol’s Electronic Counter Learning System (85-MT5E) adds to the Electric Motor Control Learning System (85-MT5) to teach electrical event counting in electrical motor control circuits. Electronic counters are used in a wide variety of applications, including production counting, reject counting, sorting, and flow timing. The electronic counter training system features a digital 3-digit electronic counter set within a heavy-duty, 11-gauge steel slide-in panel built to stand up to frequent use.
This industrial training system also features world-class curriculum that covers counter and timer operation, designing circuits, and troubleshooting. Learners can then directly apply this theoretical knowledge to practice hands-on skills, such as designing a timed one-shot motor control circuit, a timed repeat cycle motor control circuit, and a motor control circuit using the counter to tally operations. Learners can also practice troubleshooting a timed one-shot motor control circuit and a timed repeat cycle motor control circuit.
Allen-Bradley Micro810
Amatrol’s PLC Motor Control Learning System - AB Micro810 (85-MT5AB8) teaches PLC operation, programming, and motor control, as well as timer and counter instructions. The PLC Motor Control training system adds to Amatrol’s Electric Motor Control training system (85-MT5) and covers in-depth topics like PLC program execution, PLC program editing and documentation, seal-in program logic, and time-driven sequencing. Skills presented by this learning system are valuable for industrial maintenance technicians in a variety of advanced manufacturing careers.
The major component on the PLC Motor Control training system is the Allen-Bradley Micro810 programmable logic controller featuring embedded 10V non-isolated 4 channel analog input and 1 channel analog output for speed control and communications via EtherNet/IP. This system also includes a lead set, USB communication cable, CCE software DVD, interactive multimedia curriculum, installation guide, and student reference guide. Amatrol provides real-world industrial components to stand up to frequent use and to best prepare learners by practicing on components that they’ll actually use in the workplace.
Amatrol’s DC Drive with SCR Speed Control Learning System (85-MT5F) adds to the Electric Motor Control Learning System (85-MT5) to teach variable speed motor control of DC electric motors using Silicon Controlled Rectifier (SCR)-based circuits. SCRs convert AC voltage into a DC voltage in order to provide efficient variable speed control of DC motors and are widely used within industrial applications, such as cranes and machine tool spindles.
The DC drive with SCR speed control training system features heavy-duty components like an SCR speed control unit, DC shunt wound motor, and fuse block to give learners real-world practice on SCR speed control skills, such as connecting and operating a motor with SCR half-wave speed control, measuring the performance of SCR half-wave speed control, and troubleshooting an SCR speed control circuit. These hands-on skills are carefully interwoven with world-class SCR speed control curriculum so that learners understand both the theoretical and practical knowledge that they’ll need to be successful.
Amatrol’s 890-FTS1 Fault Troubleshooting System adds to the Electric Motor Control Learning System (85-MT5) to provide troubleshooting training via computer-based fault insertion. The 890-FTS1 is unique because it can insert faults into electrical lines that carry full power to electric motors, as well as control-level signals. This gives it the ability to create a more realistic troubleshooting environment for students. The Fault Troubleshooting System also avoids damage to the equipment that is normally associated with manual fault insertion, because it inserts the faults electronically. Training equipment lasts longer, and troubleshooting is safer for both the student and the teacher.
The 890-FTS1 Fault Troubleshooting System consists of FaultPro software, PC-based fault control card, fault module with a wide array of faults and individual plug-in connection cables, power supplies, and operation manual. FaultPro software is a Windows-based software package that provides an online interface for student troubleshooting and a database for record-keeping of student responses.
Amatrol’s VFD/PLC Wiring Training System (85-MT6BA) is an invaluable industrial wiring technician training system for careers like electricians and industrial maintenance technicians that wire control panels and operator panels on manufacturing machines. This learning system can also be used to form a strong foundation toward attaining numerous industrial maintenance technician certifications.
The VFD/PLC wiring training system includes real-world components, such as a variable frequency drive (VFD), a programmable logic controller (PLC), a 3-phase motor, pushbuttons, switches, valves, and a 24VDC power supply all mounted on a mobile workstation. Learners will use these components to study areas like electrical control system wiring, pneumatic control circuit wiring, conductors, disconnects, and overcurrent protection. This combination of industrial components and comprehensive curriculum will reinforce electrical wiring concepts and skills and build up a learner’s confidence and competence.
Amatrol’s Industrial Soldering Learning System (85-MT6BB) covers industrial soldering techniques commonly used within a control enclosure by industrial maintenance technicians. Applications for these techniques include soldering various connectors to wire, wire-to-wire, and wire-to-terminals. Other major topic areas include solder types, soldering safety, and tool operation. This industrial soldering training system requires Electrical Wiring (850-MT6B) and VFD/PLC Wiring (85-MT6BA).
The industrial soldering training system includes a soldering iron, heat gun, potentiometer, burnishing tool, de-solder pump plastic vacuum, and more! These components will be used to practice skills like soldering and inspecting a connection on a printed circuit board and soldering a DB-9 connector to a Modbus cable. Amatrol uses real-world, industrial-grade components for its learning systems both for durability to stand up to frequent use and to allow learners to build confidence and competency with equipment they’ll encounter on-the-job.
Amatrol’s Ethernet and Analog Wiring Learning System (85-MT6BC) covers topics and skills related to the installation, operation, and wiring of human-machine interface (HMI) panels, Ethernet switches, and analog inputs. This learning system will provide invaluable hands-on practice for careers like electricians and industrial maintenance technicians. This system requires the electrical wiring learning system (850-MT6B) and the VFD/PLC wiring learning system (85-MT6BA).
The Ethernet and analog wiring training system includes a variety of real-world components, such as a Siemens HMI panel, Ethernet switch, thermocouple, conduit set, and much more! Learners will study a variety of topics, including how to interface and test an HMI Panel and PLC via Ethernet; how to install and test an Ethernet switch; and how to interface a transmitter to an analog input and test its operation and practice skills like interfacing a thermocouple to a transmitter.
Amatrol’s Electrical Wiring Learning System (850-MT6B) allows learners to study and practice electrical wiring skills like: installing control wiring in an electrical panel; installing wiring into limit switches, solenoids, and pressure switches; and understanding the importance of correct wire size, material, and insulation. The 850-MT6B is an invaluable industrial wiring technician training system for careers like electricians and industrial maintenance technicians that wire control panels and operator panels on manufacturing machines. This learning system can also be used to form a strong foundation toward attaining numerous industrial maintenance technician certifications.
The 850-MT6B includes real-world components such as a 3-phase motor, pushbuttons, switches, valves, and a 24VDC power supply all mounted on a mobile workstation. Learners will use these components to study areas like electrical control system wiring, pneumatic control circuit wiring, conductors, disconnects, and overcurrent protection. This combination of industrial components and comprehensive curriculum will reinforce electrical wiring concepts and skills and build up a learner’s confidence and competence.
Proximity Sensor, Reed Sensor
Amatrol’s Electronic Sensors Learning System (85-SN1) is a stand-alone training system that teaches the operation of electronic non-contact sensors and their applications in industry, such as sensing movement, detecting metal versus non-metal, and determining speed. This lightweight, portable industrial sensors training system offers depth and breadth of knowledge and skill-building that far exceeds its physical size.
The sensors training system includes the following components: capacitive proximity sensor, inductive proximity sensor, magnetic reed sensor, and hall-effect sensor. These sensors are used with a variety of test materials to show how each sensor completes industrial tasks. This system requires one of the following Amatrol Learning Systems: Electro-Fluid Power (85-EF), Electro-Hydraulics (85-EH), or Electro-Pneumatics (85-EP). Combined with Amatrol’s world-class curriculum, this innovative product provides learners with a thorough understanding of electronic sensors and their applications.
Amatrol’s Mechatronics Ethernet Training System – AB CompactLogix L16 (87-ENAB53A) covers the applicable skills and theory for Ethernet industrial communication networks used on automated lines in areas such as automotive, manufacturing, and packaging. Used in combination with a PC and two or more of Amatrol’s world-class Mechatronics learning stations, the 87-ENAB53A covers major Ethernet topics such as network operation, installation, and configuration, data transfers between controllers, produced and consumed data, and using the message instruction.
The 87-ENAB53A teaches how an Ethernet switch interfaces with programmable logic controllers to control and monitor an automated line. This learning system allows learners to practice industry-standard skills by interfacing two or more Allen-Bradley L16ER CompactLogix 5300 PLCs. Some of the real-world, hands-on skills that learners can practice include setting the IP address of a 1769-L16ER CompactLogix controller, configuring an MSG instruction to transfer data between ControlLogix controllers, and creating a User-Defined data type in a ControlLogix project.
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Item Number:BH-85 -
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.
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The BOFA inline prefilters have been designed specifically for applications that generate high amounts of dust or particulate.
