LaboratoryInstrumentIndia is a renowned name in the realm of mechanical lab equipment manufacturers, suppliers, and exporters, serving clients across India, China, and Kenya. We specialize in providing a comprehensive range of high-quality mechanical laboratory instruments designed to meet the diverse needs of educational institutions, research facilities, and industries.
Our product catalog includes a wide array of equipment such as structural engineering 2 learning system, multiple pump learning system, mechanical drive systems, laser shaft alignment learning system, and more. These instruments are crafted with precision and advanced technology to ensure accurate and reliable results in mechanical testing, analysis, and research.
At LaboratoryInstrumentIndia, we are committed to upholding the highest standards of quality and innovation. Our manufacturing processes adhere to stringent quality control measures, guaranteeing durable and high-performance mechanical lab instruments that meet global industry standards.
Choose LaboratoryInstrumentIndia as your trusted partner for cutting-edge mechanical lab equipment that enhances learning, research, and innovation in the field of mechanical engineering. We are dedicated to supporting your endeavors with reliable and efficient instruments.
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The Structural Engineering 2 Learning System includes a data acquisition system, bridge components fitted with strain gauges, a test fixture hardware package, and interactive multimedia student curriculum. The data acquisition system uses structural members equipped with stain gauges to measure the forces acting on a structure, constructed by the learners, and the system records these values to provide a clear picture of how the structure is reacting to the applied force. Structural Engineering 2 Learning System, adds to the Structural Engineering 1 Learning System to teach statics, data acquisition, and bridge design analysis. Through calculations and data acquisition analysis, learners will analyze the forces in truss bridge designs. The learning content covers topes such as bending stress and the moment of inertia, data acquisition, and truss bridge analysis.
Features:
Measure the forces acting on a structure.
Interactive multimedia.
Teaches statics, data acquisition, and bridge design analysis.
Collects and displays data graphically.
The Structural Engineering 1 Learning System includes the Structural Testing Systems consisting of a workstation, bridge component sets, a test fixture set, indicator package, bridge designer software, supplemental CD, and interactive multimedia student curriculum. Civil engineers are responsible for creating structures such as skyscrapers, bridges, tunnels, dams, mass transit systems, water treatment facilities, and many more structures that we use every day for living, transportation, and industry. Structural Engineering 1 Learning System, introduces learners to the field of civil engineering. Learners will learn the fundamentals of structural analysis as well as bridge design and construction. These components are used to teach topics such as civil engineering careers, structural stability, force vectors, and bridge design.
Features:
Modular Structural Members
Structural Design Software
Interactive Multimedia.
The Multiple Pump Learning System presents practical skills such as installing and operating series and parallel pumps with theoretical knowledge like measuring and graphing flow/pressure characteristics and calculating pump efficiency. Multiple Pump Learning System adds onto the by including an additional centrifugal pump and electric motor, which allows learners to study the functions and real world applications of series and parallel pumps.
The Multiple Pump Learning System includes an industrial-grade, close-mount centrifugal pump/ electric motor and a piping network. Turbines are used for high flow, low pressure transfer of fluids from one point to another, especially for applications where contamination is a concern, and air-operated diaphragm pumps are used to transfer fluids that are too viscous, corrosive, abrasive, or hot for other types of pumps. Once the Multiple Pump Learning System is completed, learners can continue to increase their knowledge of pump systems by advancing to the Turbine Pump Learning System and Diaphragm Pump Learning System. By supplying real-world components, proves why its the worlds leader in skills-based, interactive technical learning by allowing learners to practice on mechanisms theyd normally only find on the job, which develops both experience and confidence.
Features:
Industrial Quality Centrifugal Pump
Load Valve for performance measurement
Flexible Piping Network
C-Face Mount and Mechanical Seal.
Mechanical Systems 2 Learning System teaches vital industrial skills including how to design, install, operate, and analyze basic mechanical transmission systems using components like chains, v-belts, spur gears, bearings, shafts, and couplings. Mechanical Systems 2 Learning System teaches the fundamentals of mechanical transmission systems used in areas such as industrial, agricultural, and mobile applications. Common real-world applications of mechanical transmission systems include drive shafts on cars and air compressors.
The Mechanical Systems 2 Learning System features a variety of real-world mechanical components such as a 1/3 Hp constant speed motor, v-belt, roller chain, and a digital tachometer. In addition to hands-on skill building, learners study the mathematical theory behind mechanical applications such as calculating mechanical power, mechanical efficiency, and the shaft speed and torque of a belt drive system. Learners use these components to practice hands-on skills such as mounting a motor to a work surface, assembling a v-belt and roller chain drive systems, and measuring motor speed.
Features:
Rigid Work Surface for Precision Alignment
Interactive Multimedia
Prony Brake for Testing Load
Mechanical Guard Assembly.
Laser shaft alignment systems also avoid problems such as sagging indicators, reading resolution error, and reading parallax error. These components add to the Mechanical Drives 2 Learning System and either the Mechanical Drives 1 Learning System Full Bench or the Mechanical Drives 1 Learning System Short Bench. Laser Shaft Alignment Learning System covers the installation, operation, and applications of laser shaft alignment in a variety of industrial scenarios. Laser shaft alignment is the preferred method of shaft alignment among maintenance and plant engineering personnel due to its superior efficiency and accuracy over older methods like the dial indicator method or the straight edge and feeler gauge method. Learning systems are composed of heavy-duty components that provide learners with real-world equipment they recognize on the job and already understand how to use. The Laser Shaft Alignment Learning System includes a laser alignment system, two measuring units, two shaft v-brackets, two locking chains, and a motor mount horizontal adjustment assembly. These laser alignment principles and components will be used to study topics like rough alignment, laser shaft alignment installation, soft foot correction, and laser shaft alignment operation and analysis.
Features:
Precision machined adjustment base
Hand-held
Reflected laser
Microprocessor based control unit
Reflector and transducer detector
Industrial quality components
Digital readout
Graphical display
Simultaneously measures and indicates corrective action
Student Reference Guide.
These mechanical system fundamentals can be applied to a variety of applications within the automotive, agricultural, and power industries. Portable Mechanical Drives 1 Learning System covers the fundamentals of mechanical transmission systems and applications, such as how to: operate, install, analyze performance, and design basic mechanical transmission systems using chains, vbelts, spur gears, bearings, and couplings.
This power transmission training system uses industrial quality components to help assure that learners are better prepared for what they will encounter on the job and to withstand frequent use. The Portable Mechanical Drives 1 Learning System includes: a tabletop mounting work surface; a drive motor; a variety of components for belt, chain and gear drives; a digital tachometer; a mechanical load device; and an alignment package. The Portable Mechanical Drives 1 Learning System features the ability to setup various drive systems, showing learners the effects of proper alignment and how to obtain best efficiency. These components will be used to cover major mechanical drives topics like shaft speed measurement, key fasteners, power transmission systems, belt drive concepts, chain tensioning, and gear backlash.
Features:
Perfect training for a variety of applications within the automotive, agricultural, and power industries.
Uses industrial quality components to help assure that learners are better prepared for what they will encounter on the job and to withstand frequent use.
Covers the fundamentals of mechanical transmission systems and applications, such as how to: operate, install, analyze performance, and design basic mechanical transmission systems using chains, vbelts, spur gears, bearings, and couplings.
Mechanical Systems 1 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. The Mechanical Systems 1 Learning System workstation features level 1 and level 2 mechanical components including linkages, cams, turnbuckles, pulleys, and gears.
Mechanical Systems 1 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. Mechanical Systems 1 Learning System builds basic mechanical technical knowledge by focusing on the fundamentals of basic mechanisms and simple mechanical systems. Combining theory with skills and components, learners will practice constructing various mechanical systems, taking various measurements, and making a wide array of calculations.
Features:
Ideal for future technicians and engineers
Covers basics like force, torque, and velocity
Basic mechanical technical knowledge
Durable, user-friendly system
Interactive multimedia included
Multiple hands-on skills
Optional virtual trainer.
Roller-pack bearings are precision bearings made specifically for the machine tool axes to provide precision positioning of the axis under heavy load. The Roller Pack Machine Tool Axis Learning System adds Mechanical Drives 1 Learning Systems to teach machine tool axis drives based on the roller-pack type bearing. Students will learn industry-relevant skills related to this new topic including operation, installation, performance analysis, troubleshooting, and design.
The axis can also be combined with the ball screw components of the Mechanical Drives 4 System to become a fully operational machine tool axis. The Roller Pack Machine Tool Axis Learning System includes 12 roller-pack bearings and other components to assemble a machine tool axis; student learning materials for both theory and lab, and teachers guide.
Features:
Industry-relevant skills
Teaches machine tool axis drives based on the roller-pack type bearing.
The Magnetic Pump Learning System curriculum explains the function, operation, installation, disassembly, inspection, and maintenance of a magnetic pump. The Magnetic Pump Learning System covers the magnetic pump, which uses a magnetic coupling to prevent direct contact between the motor drive shaft and the pump impeller. Additional topics include: how to properly align the magnetic coupling; how to troubleshoot problems; how to select the correct magnetic pump for an application; how to determine a pumps flow/pressure characteristics; and how each component of the pump factors into the overall operation. This feature eliminates any possibility of leakage or seepage and makes the magnetic pump an ideal selection for pumping hazardous chemicals that could harm the environment or for expensive liquids where it is important to reduce loss.
The Magnetic Pump Learning System includes a polypropylene housed, c-face mounted magnetic pump with a centrifugal impeller, a piping network, a magnetic coupling, and a relief valve. In fact, all of the included components are industrial-grade and will allow learners to gain immediate hands-on experience and practice that can apply to real-world mechanisms. The polypropylene housing is chemically resistant, which allows the magnetic pump to move fluids such as acids, alkalis, plating solutions, sterile solutions, and brine for applications in hospitals, chemical laboratories, and wineries. This commitment to providing learns with top-flight equipment is one reason why is the worlds leader in skills-based, interactive technical learning.
Features:
Magnetic Coupling Design
Mounting Compatible with Workstation
Industrial Quality Magnetic Pump.
The Prony Brake provides a convenient method of loading rotating machines and measuring torque output. The load range is 0-3.05 N-m. It consists of a formed steel gauge unit, aluminum brake drum with mounting for 5/8-inch motor shafts, balanced pulley, spring force gauge, load adjustment knob, double set screw locking device, and coolant spray bottle.
....Peristaltic Pump Learning System versatile pump keeps fluid uncontaminated as it moves through the system by utilizing a tubing system that prevents direct contact with the pumps working parts. The Peristaltic Pump Learning System also discusses peristaltic pump components, how to reduce pulsation, how to calculate and adjust the flow rate, and how to select proper tube sizes. The Peristaltic Pump Learning System covers the function, operation, and maintenance of peristaltic pumps, which are used in a variety of applications within the chemical, food, pharmaceutical, and biotechnological industries. As an example, peristaltic pumps are used to filter and circulate blood throughout the body during heart surgery.
The Peristaltic Pump Learning System industrial-grade components are the same as those used in the field, so learners will gain experience and practice on actual, real-world mechanisms. The Peristaltic Pump Learning System features a foot-mounted peristaltic pump with polycarbonate housing and steel pump head, a maintenance key tool, and a piping network. Once completed, learners can proceed to additional pumps like the Piston Pump and the Gear Pump. Gear pumps transfer fluids under pressure and are used in hydraulic systems, pressure washing, and liquid recirculation. Piston pumps are used in water, soap, and detergent applications to produce high pressure fluid flow.
Features:
Industrial Quality Peristaltic Pump
Quick Connect Piping Connections
Mounting Compatible with Workstation.
Plain bearings are commonly used in small to medium machine tools because they are simple to maintain and low cost. The Plain Bearing Machine Tool Axis Learning System adds to Mechanical Drives 1 Learning Systems to teach machine tool axis drives that use plain bearings. The model Plain Bearing Machine Tool Axis Learning System includes an operational dovetail slide with plain bearings and alignment adjustment devices; student learning materials for both theory and lab, and teachers guide. Students will learn industry-relevant skills related to this new topic including operation, installation, alignment, and troubleshooting. Plain Bearing Machine Tool Axis Learning System uses industrial quality components to help students become better prepared for what they will encounter on the job and to withstand frequent student use.
Features:
Industry-relevant skills
Teaches machine tool axis drives that use plain bearing.
Machine tool chip conveyors are used to carry away the metal chips produced by machine tools. They use heavy-duty steel link belts usually arranged in a serpentine shape. The Machine Tool Chip Conveyor Learning System adds to Mechanical Drives 1 Learning System to teach skills related to machine tool chip conveyors. Students will learn industry-relevant skills related to this new topic including operation, installation, alignment, maintenance, and troubleshooting. Machine Tool Chip Conveyor Learning System uses industrial quality components to help students become better prepared for what they will encounter on the job and to withstand frequent student use. The Machine Tool Chip Conveyor Learning System includes an operational floor-standing chip conveyor; student learning materials for both theory and lab, and teachers guide.
Features:
Features industrial quality components
Teaches skills related to machine tool chip conveyors.
Diaphragm Pump Learning System are used to transfer fluid that too viscous, corrosive, abrasive, or hot for other types of pumps, making it a perfect choice for moving food products such as peanut butter, ink for the print industry, and pulp, paper, and petroleum products. The Diaphragm Pump Learning System also explores how to adjust a diaphragm pump flow rate, how to select the right diaphragm pump for an application, and how to install, maintain, disassemble, and troubleshoot a diaphragm pump. The Diaphragm Pump Learning System explains the function, operation, application, and variety of diaphragm pumps.
The Diaphragm Pump Learning System features a foot-mounted, air-operated diaphragm pump, air regulator, air lubricator, pressure gauge, air muffler, and piping network. Peristaltic pumps, also known as tubing pumps, are used to transfer fluids that cannot come into contact with the working parts of the pump, either to avoid contamination of the fluid or because the fluid is too corrosive. These industrial-grade components will help to familiarize learners with actual mechanisms they work with on the job. This commitment to providing high quality components is why is the worlds leader in skills-based, interactive technical learning. After completion, learners can proceed to additional pumps like the Peristaltic Pump and Piston Pump. Piston pumps, also known as plunger pumps, are used to produce high pressure fluid flow of water, soaps and detergents.
Features:
Double Diaphragm Design
Industrial Quality Diaphragm Pump
Mounting Compatible with Workstation
Quick Connect Piping Connections.
The Floor Standing Belt Conveyor Learning System adds to the Mechanical Drives 1 Learning System to teach skills related to flat belt conveyors. This system uses industrial quality components to help students become better prepared for what they will encounter on the job and to withstand frequent student use. The model Floor Standing Belt Conveyor includes an operational floor-standing flat belt conveyor; student learning materials for both theory and lab, and teachers guide. Students will learn industry-relevant skills related to this new topic including operation, installation, alignment, maintenance, and troubleshooting. Flat belt conveyors are used in almost every industry to transport material and packages at low cost from one point to another.
Features:
Industry-relevant skills
Teaches skills related to flat belt conveyors.
Vibration analysis is one of the key techniques used in the field of predictive maintenance to determine when to service one or more of a machines components, either making a replacement or adjustment, before a failure actually occurs. The Predictive Maintenance Vibration Analysis Learning System teaches how to use vibration analysis to determine when to perform maintenance of power transmission components. Learners will practice industry-relevant skills including how to use a vibration meter to take a vibration measurement, how and where to take measurements on various types of power transmission systems, how to analyze the results, and how to minimize vibration. Students will analyze vibration of both good and defective real-world components to better prepare them for real world applications. The Vibration Analysis Learning System includes a vibration meter and sensor attachments, bench-top workstation, AC constant speed motor, belt drive, shaft drive, vibration generator system, component test set, student learning materials for both theory and lab, and teachers guide.
Features:
Measures vibration in units of velocity and acceleration
Silkscreened workstation panel for quick component identification
Hand-held vibration meter
Orientation adapters allow for quick and accurate measurements
LCD display.
The Rigging 2 Learning System expands on the initial offering of rigging knowledge to include synthetic slings, equipment movement, and industrial cranes. Rigging 2 Learning System adds to Rigging 1 to offer a comprehensive learning experience to help learners prepare for certifications. Proper rigging techniques are vital for efficient movement of loads and workers safety.
The Rigging 2 Learning System includes two synthetic slings, four load protection pads, jack, lever dolly, and much more. In addition to equipment and printed curriculum, the offers a student reference guide, instructors manual, installation guide, and an optional online eBook. These components will be used to explore topics such as synthetic sling operation, equipment movement using roller bars and dollies, and crane operation signals.
Features:
Replication of Common Loads
Industrial Standard Components.
Mechanical Fabrication Learning System includes a workstation, precision fabrication parts set, mechanical fabrication tool set, standard parts set, component kit, skills part kit, tool kit, hardware kit, bolt stretch kit, student curriculum, instructors assessment guide, and installation guide. Mechanical Fabrication Learning System will focus on the proper and safe application of basic hand tools used in mechanical fabrication assembly. Mechanical Fabrication plays an important role in todays economy as the cost to produce goods increases and the profit margins shrink. In our information based world, students increasingly do not have knowledge or skills for mechanical fabrication. To stay competitive, companies must manufacture high quality goods. Also offers the option to expand our strong print based curriculum with interactive multimedia so that students can learn mechanical fabrication skills and concepts in the style they need.
Features:
Safety Emphasized at All Levels
Quick Setup/Cleanup and Easy Inventory
Industry Skills
Expansion of Basic Skills
Student Reference Guide
Multimedia Curriculum Available.
The Centrifugal Pump With Stuffing Box Learning System includes a cast iron-housed centrifugal pump with stuffing box and a piping network that features a pressure line, suction line, and pressure gauge hose. The Centrifugal Pump With Stuffing Box Learning System explains the installation, function, and maintenance of a centrifugal pump with a stuffing box. The Centrifugal Pump With Stuffing Box Learning System covers a pump design that, in spite of the modern mechanical seal, remains widely used in industry due to its cost-effectiveness and ability to avoid catastrophic failure. Additional topics include: how to troubleshoot this pump design; what the flow/pressure characteristics of a centrifugal pump are; and how to startup and operate a centrifugal pump with a stuffing box. This feature makes it an ideal design for fire departments in fire pump applications. This commitment to providing learners with the most realistic and applicable training available is one example of how is transforming the global workforce one life at a time. These components allow learners to practice skills on an industrial-grade centrifugal pump that they may work with at real-world job sites.
Features:
Industrial Quality Centrifugal Pump
Stuffing Box Packing Type Seal
Mounting Compatible with Workstation.
The Central Lubrication Training recreates the real world environment with high-quality industrial central lubrication components operating in realistic applications with fault insertion capability in both the electrical and fluid components. Terminal strip test points are available at key locations to aid students in their troubleshooting process without damage to the equipment. Faults can be manually inserted throughout the system to provide students with real-world machinery lubrication troubleshooting experience. The Central Lubrication Training Central Lubrication Learning System teaches students the technical skills needed to operate, install, tune, maintain and troubleshoot these vital lubrication systems. The Central Lubrication Training includes a mobile workstation, pneumatic pump panel, series-progressive valve panel, fluid recovery panel, servicing package with hand pump, control center with micro-processor controller, student learning materials for both theory and lab, and teachers guide. Additional panels are available to extend the capability of the system. Central lubrication systems are used in almost every industry to provide preventative maintenance of central lubrication systems, by providing an automatic supply of lubrication to machine bearings and other devices needing lubrication. The mobile workstation consists of a sturdy welded-steel frame with interchangeable panels to permit other central lubrication systems to be operated on the workstation. These include: electric motor-driven pump, piston distributor valves, spindle lubrication, dual-line, and zoned.
Features:
Fault Insertion in fluid and electrical devices
Mobile Workstation
Interchangeable Component Panels
Heavy Duty Industrial Style Components
Steel Tubing Conductors
Student Reference Guide
Optional Online eBooks.
The Rigging 1 Learning System includes a 1-ton rated gantry crane with casters and component storage, hoists, slings, loads and load fittings to enable learners to replicate various on-the-job load movement applications. The Rigging Concepts 1 Learning System teaches how to safely move loads of different shapes and sizes using a variety of methods. Major topics covered by this learning system include hoists, slings, lifts, wire ropes, and chain slings. Rigging skills are required in many industries including manufacturing, construction, and transportation, so give your students a head start by teaching them these rigging concepts and applications. Hands-on, applied skills include installing an eyebolt for lifting, calculating crush force, assembling and lifting a load using a two-leg wire rope bridle sling with shackles, and many more. The Rigging 1 Learning System can be used as solid foundation toward industrial certifications and industry standard safety practices are followed throughout. This learning system also includes student learning materials for theory and lab, an instructors guide, a student reference guide, and an optional eBook format for online learning.
Features:
Heavy Duty Welded Steel Gantry
Industrial Standard Components
Optional Online eBooks
Replication of Common Loads
Student Reference Guide.
The Mechanical Drives Learning System includes a mobile workstation, motor control unit, mechanical transmission system components, specialized tools, prony brake load device, and performance measurement instruments. Mechanical Drives Learning System covers the operation, installation, performance analysis, and basic design of mechanical transmission systems using chains, v-belts, spur gears, bearings, and couplings. Additional panels are also available to extend the learning capabilities of the Mechanical Drives Learning System to provide the most extensive range of component coverage ever available for a mechanical trainer. Learners will practice industry-relevant skills to prepare for real-world industrial applications in fields such as agriculture, automotive, mining, and many more. Learners will use these mechanical transmission components to study major topics like key fasteners, power transmission systems, V-belt drives, chain drives, spur gear drives, and multiple shaft drives. Mechanical Drives Learning System uses industrial quality components to help assure that learners are better prepared for what mechanical drives they will encounter on the job and to withstand frequent student use.
Features:
System Performance Measurement
Machine Load Devices
Industrial Safety Procedures with Lockout/ Tagout
Heavy Duty Precision-Machined Worksurface
Component Storage Panels
Double-Sided Workstation
Wide Range of Component Options
2-Student Workstation
Industrial Standard Components
Student Reference Guide
Multimedia Curriculum Available.
Experimental capabilities:
Determination of equivalent Moment of Inertia of shafts coupled by gears.
Experiment to determine the Moment of Inertia of rotor system mounted on bearings.
This apparatus is intended to represent a simple application of a suspended beam and may be used to determine experimentally the tension in the cables supporting a beam carrying a series of distributed loads.
Tension in the supporting cables is determined by attaching suitable masses to the cable stirrups.
Loads may be applied to the beam by attaching masses at a series of loading points and indicators enable the beam to be returned to a position for the true shape of the supporting cables.
A light alloy BEAM is supported on the rods attached at pivot points to cross members threaded on the supporting cables which pass over ball bearing pulleys.
Universal Bench Mounted Frame
The frame is designed to accommodate two items of ADS apparatus, allowing adequate space for students to work on each piece of equipment simultaneously. However it is possible to mount three pieces, in the case of the simple transmission system.
The Sanderson Universal Bench Mounted Frame provides a very sensible alternative to to wall mounting, particularly since many new buildings are predominantly glass, with very flimsy dividing walls.
By mounting the apparatus on the frame, experiments can be transported between rooms to any convenient location.
Drum Brake Apparatus
The apparatus is suitable for use in the laboratory and may be used by the Students to carry out simple experiments to investigate the relationship between actuating forces and the braking torques and for the determination of the co-efficient of friction between the brake lining and the drum.
It provides a means of demonstrating the difference in braking torque between leading (Primary) and trailing (Secondary) shoe braking systems and the effect on the braking systems and the effect on the braking torque of the various combinations of leading and trailing shoes. This apparatus has been developed specifically for Motor Vehicle Mechanics and Motor Vehicle Technicians Courses. When the two shoes are linked together, the self energising action can be demonstrated.