Provides high accuracy for component inspection and significantly reduces cycle time. There are three variants of the high-performance vision measuring instrument.
Producing hole is one of the most common machining operation on a machining center.
Machining center have many hole making cycles such as Spot Drilling, Reaming, Deep Hole drilling, Peck drilling etc.
in this Ppt all canned cycle are explained i;e G70 G71 G72 G73 G75 G76 G81
Introduction to CNC machine and Hardware. aman1312
Complete detailing of cnc machine and its operations with its required hardware necessary for increasing its Automation and increasing its manufacturing capability. Also increase in complex shape manufacturing.
This document provides an overview of computer numerical control (CNC) machines. It discusses the basic functions and components of CNC machines, including automatic and precise motion control along linear and rotary axes driven by motors and computer programs. The document also covers important G and M codes used in CNC programming to control functions like feed rate, spindle speed, tool changes, and axis movement. Sample CNC programming examples are provided to demonstrate how coordinates and machining parameters are defined to cut a geometric profile.
This document discusses antifriction guideways, feed drives, and spindles used in machine tools. It describes two types of linear motion guideways: sliding contact and rolling contact. Rolling contact guideways use balls or rollers between rails and blocks to achieve precise linear motion with less friction. Effective lubrication is important for guideway systems. Feed drives are classified as spindle drives and feed drives. Common electric motors used are servo motors and stepper motors. Servo motors provide accurate motion control via feedback. Spindles are used to hold and rotate workpieces or cutting tools during machining operations. Requirements for accurate, stiff, wear-resistant spindles are discussed.
This document discusses vertical machining centers (VMCs). It provides the following key details:
- A VMC is a type of computer numerical control (CNC) milling machine where the spindle is vertical. In a VMC, the workpiece is stationary while the tool rotates.
- VMCs can be used for cutting, drilling, engraving, tapping, and other machining applications due to their versatility. They are commonly found in machine shops.
- Common milling cutters used in VMCs include end mills, face mills, ball cutters, slab mills, and more. VMCs can perform operations like boring, slotting, dividing, and drilling.
An automatic tool changer (ATC) allows CNC machines to work with multiple tools. It stores tools in a magazine and automatically exchanges tools to improve production capacity. There are two main types of ATC - drum-type storage and tool changers on turning centers. An ATC reduces tool change time, increases machine uptime, and provides automatic storage and delivery of tools to the machine.
The document discusses the Geneva mechanism, which converts continuous rotation into intermittent rotary motion. It does this through a drive wheel with a pin that engages slots on a driven wheel, advancing it by one step. There are three main types: external, internal, and spherical. Applications include film projectors, mechanical watches, assembly lines, and CNC machines. The Geneva mechanism provides a simple solution for intermittent motion but exhibits more jerk than more advanced cam systems. Future uses could include engine applications, bottle indexing, and pen changers.
Manufacturing Engineering 2, cutting tools and tool holdersGaurav Mistry
Detail study of cutting tool materials, some special materials, carbide tip tools, carbide inserts, types, carbide insert holders, ISO designation of carbide inserts, single point cutting tool nomenclature and angles, tool geometry, Tool life, tool wear and types, machinability
Producing hole is one of the most common machining operation on a machining center.
Machining center have many hole making cycles such as Spot Drilling, Reaming, Deep Hole drilling, Peck drilling etc.
in this Ppt all canned cycle are explained i;e G70 G71 G72 G73 G75 G76 G81
Introduction to CNC machine and Hardware. aman1312
Complete detailing of cnc machine and its operations with its required hardware necessary for increasing its Automation and increasing its manufacturing capability. Also increase in complex shape manufacturing.
This document provides an overview of computer numerical control (CNC) machines. It discusses the basic functions and components of CNC machines, including automatic and precise motion control along linear and rotary axes driven by motors and computer programs. The document also covers important G and M codes used in CNC programming to control functions like feed rate, spindle speed, tool changes, and axis movement. Sample CNC programming examples are provided to demonstrate how coordinates and machining parameters are defined to cut a geometric profile.
This document discusses antifriction guideways, feed drives, and spindles used in machine tools. It describes two types of linear motion guideways: sliding contact and rolling contact. Rolling contact guideways use balls or rollers between rails and blocks to achieve precise linear motion with less friction. Effective lubrication is important for guideway systems. Feed drives are classified as spindle drives and feed drives. Common electric motors used are servo motors and stepper motors. Servo motors provide accurate motion control via feedback. Spindles are used to hold and rotate workpieces or cutting tools during machining operations. Requirements for accurate, stiff, wear-resistant spindles are discussed.
This document discusses vertical machining centers (VMCs). It provides the following key details:
- A VMC is a type of computer numerical control (CNC) milling machine where the spindle is vertical. In a VMC, the workpiece is stationary while the tool rotates.
- VMCs can be used for cutting, drilling, engraving, tapping, and other machining applications due to their versatility. They are commonly found in machine shops.
- Common milling cutters used in VMCs include end mills, face mills, ball cutters, slab mills, and more. VMCs can perform operations like boring, slotting, dividing, and drilling.
An automatic tool changer (ATC) allows CNC machines to work with multiple tools. It stores tools in a magazine and automatically exchanges tools to improve production capacity. There are two main types of ATC - drum-type storage and tool changers on turning centers. An ATC reduces tool change time, increases machine uptime, and provides automatic storage and delivery of tools to the machine.
The document discusses the Geneva mechanism, which converts continuous rotation into intermittent rotary motion. It does this through a drive wheel with a pin that engages slots on a driven wheel, advancing it by one step. There are three main types: external, internal, and spherical. Applications include film projectors, mechanical watches, assembly lines, and CNC machines. The Geneva mechanism provides a simple solution for intermittent motion but exhibits more jerk than more advanced cam systems. Future uses could include engine applications, bottle indexing, and pen changers.
Manufacturing Engineering 2, cutting tools and tool holdersGaurav Mistry
Detail study of cutting tool materials, some special materials, carbide tip tools, carbide inserts, types, carbide insert holders, ISO designation of carbide inserts, single point cutting tool nomenclature and angles, tool geometry, Tool life, tool wear and types, machinability
This document summarizes the key components and functions of a coordinate measuring machine (CMM). A CMM is a machine used to precisely measure physical characteristics of objects using probes and sensors. It consists of a main structure with movable axes, a probing system, and a data collection system. The main structure can be a gantry, cantilever, column, or bridge type depending on the application. A CMM makes highly accurate 3D measurements that can be used for inspection, quality control, and reverse engineering.
The document discusses computer numerical control (CNC) technology. It provides a brief history of CNC development from the first numerically controlled machine commissioned by the US Air Force in 1949. It defines CNC as using a microcomputer to store machine instructions and control logic. The document outlines common CNC applications in machining like milling and turning, as well as forming processes. It also discusses the typical components of a CNC system and provides examples of industries that utilize CNC manufacturing.
CNC machines and their components are discussed. CNC machining uses computer-controlled machine tools to precisely cut metal or other materials. Key components of a CNC system include the machine control unit, machine tool, driving system, feedback devices, and display unit. CNC machines offer advantages like higher accuracy, reduced lead times, and increased productivity compared to conventional machine tools. Common types of CNC machines are CNC lathes for turning cylindrical parts and machining centers for milling complex shapes.
CMM is a 3D measuring device used to measure dimensional characteristics of objects. It has three main components - a structure, probe system, and controller/software. Traditional CMMs have a fixed gantry structure and use touch probes to manually or automatically measure points. New developments include non-contact probes, faster computing, and portable CMMs suited for shopfloor use.
CNC machines use position feedback devices like encoders and potentiometers to provide information to the control system on the position of the machine axes. Encoders convert linear or rotational position into an electrical signal and come in various types like optical or magnetic. ISO and EIA standards define common programming languages used to operate CNC machines manually or through CAM software. Proper integration of CAD, CAM, and CNC programming is needed to efficiently manufacture parts.
There are four main types of grinding machines: surface grinding machines, cylindrical grinding machines, internal grinding machines, and tool and cutter grinding machines. Surface grinding machines are classified by spindle orientation and table movement. Cylindrical grinding machines include plain, universal, and centerless types. Internal grinding machines include chucking, planetary, and centerless types. Tool and cutter grinding machines are used to manufacture or resharpen tools and cutters.
This document provides an overview of computer numerical control (CNC) machines. It discusses the history and development of CNC machines. It then describes the typical components of a CNC machine like the controller, automated tool changer, and feedback devices. The document explains how CNC machines work through programming codes and different operating modes. It highlights advantages like increased productivity and consistency. Challenges like high costs and need for skilled operators are also noted. In conclusion, the document states that CNC machines provide automation and efficiency benefits for large-scale manufacturing compared to manual machines.
This document discusses different types of grinding machines and grinding processes. It describes rough and precision grinders, including cylindrical, internal, surface, and special grinders. The document also covers abrasives like aluminum oxide and silicon carbide, bonds for grinding wheels, wheel markings, specifications, selection factors, mounting, dressing, truing, balancing, and diamond wheels.
Location and locating devices used in jigs and fixturesAmruta Rane
This document discusses various principles and methods of locating workpieces in fixtures. It begins by defining what is meant by location and discusses the six degrees of freedom a workpiece has. It then covers different types of locating from plane surfaces using buttons, pins, pads and adjustable supports. It also discusses locating from profiles, cylinders, and preventing issues like redundant location and jamming. A variety of locating methods and components are presented, including dowel pins, nests, and sights. The document provides guidance on selecting locating methods based on workpiece and operation requirements.
This document discusses lathe operations and provides details on various operations like facing, turning, knurling, parting off, drilling, boring, thread cutting, and taper turning. It explains the basic principles and methods for each operation. The objective of the course is to help students understand different types of lathes, lathe operations, work holders, tool holders, lathe attachments, and automatic lathes. The outcome is for students to be able to use lathe machines and understand the importance of lathe tools and lathes. [/SUMMARY]
This document summarizes the classification, nomenclature, and displacement diagrams of cams and followers. It describes radial and cylindrical cams based on the direction of follower motion relative to the cam axis. Followers are classified by the contact surface and motion, including knife edge, roller, flat, and spherical types, and reciprocating vs. rotating motion. Nomenclature for key cam and follower components is also defined, such as the cam profile, base circle, pitch curve, and pressure angle. Examples of cam configurations and calculations of maximum velocity and acceleration are provided.
The document discusses lathe machines. It defines a lathe as a machine that removes metal from a workpiece to shape it. It then describes some key parts of a lathe like the bed, headstock, tailstock, and carriage. It explains the working principle of a lathe where the cutting tool is fed into a rotating workpiece to shape it. Finally, it summarizes some common lathe operations like turning, facing, drilling and threading.
What does clamping mean in context of jigs and fixtures?
Principles of Clamping
Different types of Clamping Devices, their advantaged and disadvantages
Chapter 3 CNC turning and machining centersRAHUL THAKER
This document discusses CNC turning and machining centers. It describes turning as a machining process using a lathe where the tool moves parallel to the workpiece axis to remove material. CNC lathes are replacing older lathes. Milling involves using rotating cutting tools to produce flat and helical surfaces. Machining centers are classified as vertical, horizontal, or universal depending on the spindle orientation. Machining centers have automatic tool changers and may have automatic workpiece positioners or pallet changers to reduce non-productive time during machining operations.
Non-traditional machining techniques remove material using various energy sources besides traditional cutting tools. They are divided into mechanical, electrical, thermal, and chemical techniques. Non-traditional techniques are needed for hard or complex materials, and can machine intricate shapes and deep holes. Selection depends on the part geometry, material properties, machining capabilities, and cost effectiveness. While more expensive initially than traditional techniques, non-traditional machining offers higher precision, surface finish, and ability to machine difficult materials.
Chapter 2 constructional feature of cnc machineRAHUL THAKER
This document discusses the constructional features of CNC machines. It classifies CNC systems according to the type of machine into point-to-point, straight-cut, and continuous path systems. It also categorizes them based on programming method as absolute or incremental, and by control system type as open-loop or closed-loop. Point-to-point systems move in straight lines for operations like drilling. Continuous path systems enable contouring for milling complex profiles. Programming specifies tool movements, and feedback loops help verify final positions match programs. Common machine elements include motors, ball screws, and feedback devices.
The document discusses measurement and metrology of gear teeth. It begins by listing textbooks and references on the topic. It then outlines the learning objectives of understanding basic principles of measuring gear tooth parameters. The key aspects covered include defining gear tooth features, common errors in spur gears during manufacturing, and methods for measuring specific gear elements like runout, pitch, profile, lead, backlash, and tooth thickness. Common instruments discussed are the gear roll tester, Parkinson's gear tester, and measurement using a gear tooth vernier or the base tangent method over multiple teeth.
A Coordinate measuring machine is an electromechanical system design to perform coordinate metrology.
CMMs are also considered as transducers that can convert physical measurements into electrical signals.
They are versatile in their capability to record measurement of complex profiles with high sensitivity (0.0025 mm) and speed.
Dynamo meters are the electronic devices that are widely used to the purpose of force analysis in various field of operations. There is various types of dynamometers such as
Lathe tool dynamometer
Milling tool dynamometer
Drilling tool dynamometer
This document summarizes optical shaft measuring systems from Jenoptik. It describes various Jenoptik OPTICLINE shaft measuring systems that provide precise, fast optical measurements of shafts. The systems can be used either in a measuring room or integrated directly into production processes. They offer flexibility to measure a wide range of shaft sizes and geometries.
This document summarizes optical shaft measuring systems from Jenoptik. It describes various OPTICLINE series that provide precise, automated optical measurements of shafts for quality control applications. The C-series are compact systems for production use, while the C1000-series handle larger workpieces. The CA-series are optimized for automated processes. The systems provide fast, high-resolution measurements and integrate optional tactile probing for additional tests.
This document summarizes the key components and functions of a coordinate measuring machine (CMM). A CMM is a machine used to precisely measure physical characteristics of objects using probes and sensors. It consists of a main structure with movable axes, a probing system, and a data collection system. The main structure can be a gantry, cantilever, column, or bridge type depending on the application. A CMM makes highly accurate 3D measurements that can be used for inspection, quality control, and reverse engineering.
The document discusses computer numerical control (CNC) technology. It provides a brief history of CNC development from the first numerically controlled machine commissioned by the US Air Force in 1949. It defines CNC as using a microcomputer to store machine instructions and control logic. The document outlines common CNC applications in machining like milling and turning, as well as forming processes. It also discusses the typical components of a CNC system and provides examples of industries that utilize CNC manufacturing.
CNC machines and their components are discussed. CNC machining uses computer-controlled machine tools to precisely cut metal or other materials. Key components of a CNC system include the machine control unit, machine tool, driving system, feedback devices, and display unit. CNC machines offer advantages like higher accuracy, reduced lead times, and increased productivity compared to conventional machine tools. Common types of CNC machines are CNC lathes for turning cylindrical parts and machining centers for milling complex shapes.
CMM is a 3D measuring device used to measure dimensional characteristics of objects. It has three main components - a structure, probe system, and controller/software. Traditional CMMs have a fixed gantry structure and use touch probes to manually or automatically measure points. New developments include non-contact probes, faster computing, and portable CMMs suited for shopfloor use.
CNC machines use position feedback devices like encoders and potentiometers to provide information to the control system on the position of the machine axes. Encoders convert linear or rotational position into an electrical signal and come in various types like optical or magnetic. ISO and EIA standards define common programming languages used to operate CNC machines manually or through CAM software. Proper integration of CAD, CAM, and CNC programming is needed to efficiently manufacture parts.
There are four main types of grinding machines: surface grinding machines, cylindrical grinding machines, internal grinding machines, and tool and cutter grinding machines. Surface grinding machines are classified by spindle orientation and table movement. Cylindrical grinding machines include plain, universal, and centerless types. Internal grinding machines include chucking, planetary, and centerless types. Tool and cutter grinding machines are used to manufacture or resharpen tools and cutters.
This document provides an overview of computer numerical control (CNC) machines. It discusses the history and development of CNC machines. It then describes the typical components of a CNC machine like the controller, automated tool changer, and feedback devices. The document explains how CNC machines work through programming codes and different operating modes. It highlights advantages like increased productivity and consistency. Challenges like high costs and need for skilled operators are also noted. In conclusion, the document states that CNC machines provide automation and efficiency benefits for large-scale manufacturing compared to manual machines.
This document discusses different types of grinding machines and grinding processes. It describes rough and precision grinders, including cylindrical, internal, surface, and special grinders. The document also covers abrasives like aluminum oxide and silicon carbide, bonds for grinding wheels, wheel markings, specifications, selection factors, mounting, dressing, truing, balancing, and diamond wheels.
Location and locating devices used in jigs and fixturesAmruta Rane
This document discusses various principles and methods of locating workpieces in fixtures. It begins by defining what is meant by location and discusses the six degrees of freedom a workpiece has. It then covers different types of locating from plane surfaces using buttons, pins, pads and adjustable supports. It also discusses locating from profiles, cylinders, and preventing issues like redundant location and jamming. A variety of locating methods and components are presented, including dowel pins, nests, and sights. The document provides guidance on selecting locating methods based on workpiece and operation requirements.
This document discusses lathe operations and provides details on various operations like facing, turning, knurling, parting off, drilling, boring, thread cutting, and taper turning. It explains the basic principles and methods for each operation. The objective of the course is to help students understand different types of lathes, lathe operations, work holders, tool holders, lathe attachments, and automatic lathes. The outcome is for students to be able to use lathe machines and understand the importance of lathe tools and lathes. [/SUMMARY]
This document summarizes the classification, nomenclature, and displacement diagrams of cams and followers. It describes radial and cylindrical cams based on the direction of follower motion relative to the cam axis. Followers are classified by the contact surface and motion, including knife edge, roller, flat, and spherical types, and reciprocating vs. rotating motion. Nomenclature for key cam and follower components is also defined, such as the cam profile, base circle, pitch curve, and pressure angle. Examples of cam configurations and calculations of maximum velocity and acceleration are provided.
The document discusses lathe machines. It defines a lathe as a machine that removes metal from a workpiece to shape it. It then describes some key parts of a lathe like the bed, headstock, tailstock, and carriage. It explains the working principle of a lathe where the cutting tool is fed into a rotating workpiece to shape it. Finally, it summarizes some common lathe operations like turning, facing, drilling and threading.
What does clamping mean in context of jigs and fixtures?
Principles of Clamping
Different types of Clamping Devices, their advantaged and disadvantages
Chapter 3 CNC turning and machining centersRAHUL THAKER
This document discusses CNC turning and machining centers. It describes turning as a machining process using a lathe where the tool moves parallel to the workpiece axis to remove material. CNC lathes are replacing older lathes. Milling involves using rotating cutting tools to produce flat and helical surfaces. Machining centers are classified as vertical, horizontal, or universal depending on the spindle orientation. Machining centers have automatic tool changers and may have automatic workpiece positioners or pallet changers to reduce non-productive time during machining operations.
Non-traditional machining techniques remove material using various energy sources besides traditional cutting tools. They are divided into mechanical, electrical, thermal, and chemical techniques. Non-traditional techniques are needed for hard or complex materials, and can machine intricate shapes and deep holes. Selection depends on the part geometry, material properties, machining capabilities, and cost effectiveness. While more expensive initially than traditional techniques, non-traditional machining offers higher precision, surface finish, and ability to machine difficult materials.
Chapter 2 constructional feature of cnc machineRAHUL THAKER
This document discusses the constructional features of CNC machines. It classifies CNC systems according to the type of machine into point-to-point, straight-cut, and continuous path systems. It also categorizes them based on programming method as absolute or incremental, and by control system type as open-loop or closed-loop. Point-to-point systems move in straight lines for operations like drilling. Continuous path systems enable contouring for milling complex profiles. Programming specifies tool movements, and feedback loops help verify final positions match programs. Common machine elements include motors, ball screws, and feedback devices.
The document discusses measurement and metrology of gear teeth. It begins by listing textbooks and references on the topic. It then outlines the learning objectives of understanding basic principles of measuring gear tooth parameters. The key aspects covered include defining gear tooth features, common errors in spur gears during manufacturing, and methods for measuring specific gear elements like runout, pitch, profile, lead, backlash, and tooth thickness. Common instruments discussed are the gear roll tester, Parkinson's gear tester, and measurement using a gear tooth vernier or the base tangent method over multiple teeth.
A Coordinate measuring machine is an electromechanical system design to perform coordinate metrology.
CMMs are also considered as transducers that can convert physical measurements into electrical signals.
They are versatile in their capability to record measurement of complex profiles with high sensitivity (0.0025 mm) and speed.
Dynamo meters are the electronic devices that are widely used to the purpose of force analysis in various field of operations. There is various types of dynamometers such as
Lathe tool dynamometer
Milling tool dynamometer
Drilling tool dynamometer
This document summarizes optical shaft measuring systems from Jenoptik. It describes various Jenoptik OPTICLINE shaft measuring systems that provide precise, fast optical measurements of shafts. The systems can be used either in a measuring room or integrated directly into production processes. They offer flexibility to measure a wide range of shaft sizes and geometries.
This document summarizes optical shaft measuring systems from Jenoptik. It describes various OPTICLINE series that provide precise, automated optical measurements of shafts for quality control applications. The C-series are compact systems for production use, while the C1000-series handle larger workpieces. The CA-series are optimized for automated processes. The systems provide fast, high-resolution measurements and integrate optional tactile probing for additional tests.
Video Measuring System - Types, Components, Functions and RoleVIEW
A Video Measuring System (VMS) is a cutting-edge technology designed to accurately measure the dimensions, contours, and features of objects using video technology. It employs cameras and specialized software to capture images or video footage of the object which enables precise analysis and measurement extraction.
The company is engaged in designing and manufacturing encoders for precise position and motion control. What started four decades ago as an offshoot of Machine Tool Manufacturing , is now a world class company offering solutions globally in precision measurement. Having Customer focus and team work as core values, EMS has innovated and continually improved their products to offer an optimal solutions to changing markets.
Today, we are an ISO 9001:2015 company with state of the art factory having integral facilities for everything from design to delivery under one roof.
Manufacturer and Exporter of Guppy Fire Wire Camera, Marlin Fire Wire Camera, Stingray Fire Wire Camera, Oscar Fire Wire Camera, Contour GPS, Contour Plus, Contourroam Waterproof Case, Contour Flex Strap, Fastec HiSpec 2 Camera.
The document discusses different measurement technologies that can meet the increasing inspection requirements of high-production turning equipment. Non-contact turned part measuring centers like the Tesascan can automatically inspect small dental implants. Vision systems provide significant throughput advantages over manual inspection for parts like piston valves. Touch probe systems allow inspection of turned and milled contours directly on the machine for the highest throughput.
The document describes the features of Sony's new HVR-Z5E digital HD video camera. It has a newly designed "G Lens" with excellent resolution, color, and contrast. It also uses Sony's 3 ClearVid CMOS sensor system for low-light sensitivity. The camera can record in 1080/25p HDV native progressive modes and has hybrid recording capabilities. It provides over 60 minutes of recording time on mini-DV tapes and simultaneous HD and SD recording is possible.
1) Machine vision uses digital cameras and image processing to automate production processes and quality inspections by replacing manual methods.
2) A machine vision system involves four steps: imaging, image processing/analysis, communicating results to the control system, and taking appropriate action.
3) The main components of a machine vision system are cameras, lighting systems, frame grabbers, and computer/software to process images and analyze results.
The Cardiac Imaging Scanner uses nuclear imaging techniques to provide high-quality images in a fraction of the time of current technologies. Elmo's solution uses their Whistle digital drives and Maestro motion controller to move the scanner's collimators and meet the challenges of tight space, minimal wiring, and high speed requirements. The compact Whistle drives fit within the machine's limited space and distribute communication with minimal cabling while providing high servo performance for the demanding motion profile.
A tool maker's microscope is a type of multi-functional microscope used primarily for measuring tools and apparatus in manufacturing industries. It can measure the shape, size, angle, and position of small components using a CCD camera connected to computer software. Common types include vernier traveling and 20x power measuring microscopes. It is used to examine cutting tool edges, verify surface finishes and defects, inspect threads, and verify small part alignments. The stage has an 115mm diameter rotary measuring stage that moves in the X and Y directions using two micrometer heads. The frame provides rigidity and stability, with an overall height of 490mm and weight of 36 lbs.
The Innovative Video Vision Machine DPS200-Video is a powerful and easy-to-use video vision machine for producing fully dimensioned drawings of measured parts within minutes. It features video edge detection to capture hundreds of data points instantly, profile scanning to automatically trace undefined parts, and SPC analysis including control charts. Dimensioned part views show in/out of tolerance dimensions in green/red.
This document is a product catalog from MicroE Systems that summarizes their range of high-performance encoder products. They offer various types of encoders including performance and value encoders, high-performance encoders, compact encoders, high vacuum encoders, and absolute encoders. Their encoders provide high resolution, accuracy, and value for applications ranging from motion control to metrology. MicroE Systems focuses on innovative optical and electronic designs to create encoders that achieve superior performance while being small, easy to install, and low power.
The iRiSTM Digital Cell Imaging System pairs high-performance optics with automation and user-friendly workflows to provide consistently high-quality digital cell images regardless of the user's experience level. Its scientific-grade CMOS camera, LED illumination, and on-board image analysis software allow users to easily capture, view, and analyze cell images in real-time with just a few mouse clicks. The system incorporates the highest quality Japanese-made optical components for unparalleled image quality.
The document discusses opto-electronic measurement systems produced by Shape Technology Ltd for use in the steel and metal industries. It provides details on several of their key products:
- The Reflex Gauge uses lasers and cameras to take real-time profile measurements of sections on rolling mills. It provides dimensional data to mill operators.
- Width gauges use CCD cameras to measure the width of flat products with high accuracy to help control widths.
- A crop shear optimization system uses cameras to measure bar end shapes and determine optimal cutting positions for shears to reduce yield losses.
- Additional systems and capabilities are described for camber measurement, shape measurement, thermal profiling and multi-point laser profiling
The document discusses opto-electronic measurement systems produced by Shape Technology Ltd for use in the steel and metal industries. It provides details on several of their key products:
- The Reflex Gauge uses lasers and cameras to take real-time profile measurements of sections on rolling mills. It provides dimensional data to mill operators.
- Width gauges use CCD cameras to measure the width of flat products with high accuracy to help control widths.
- A crop shear optimization system uses cameras to measure bar end shapes and determine optimal cutting positions for shears to reduce yield losses.
- Additional systems and capabilities are described for camber measurement, thermal profiling, and shape measurement to further enhance dimensional control
Máquinas de medicion por coordenadas Aberlink catalogo completo 2015Daniel Bezares
This document provides information about Aberlink Innovative Metrology and their product catalogue. Aberlink is a UK manufacturer of coordinate measuring machines, vision systems, and measurement software. Their product catalogue includes a range of CMMs from shop floor machines to large volume machines, as well as probe options, software, and accessories. Aberlink prides itself on innovation, value for money, and ease of use of its metrology solutions.
Multisensor coordinate measuring machines (CMMs) incorporate touch probes, vision metrology systems, and lasers to provide highly flexible measurement. Using three sensors allows measuring a wide range of features more efficiently than single-sensor machines. While integrating different technologies is challenging, advances in machine design, sensors, and software now allow multisensor CMMs to switch between techniques seamlessly with minimal loss of accuracy. By streamlining part setup and measurement, multisensor CMMs can significantly reduce inspection time in manufacturing cells.
Medicion de contorno y forma de piezas tipo flecha, cigüeñales, arbol de levas, partes de transmicion,etc.
Somos lideres mundiales en este segmento!!!!
Today’s CT manufacturers are now enhancing their CT scanner models with more productivity-enhancing features. Visit for more info at, https://info.atlantisworldwide.com/blog/ct-scanner-trends
One of the largest and the most reliable manufacturer of Vision measuring machines, Height measuring machine & Coordinate measuring machine Electronicaems has been, in a way, contributing to the success of various industries across various industrial premises of the country.
Electronica Mechatronic Systems is top manufacturer and supplier of height gauges including 1D and 2D measurement height gauges. Get details - http://www.electronicaems.com/
Electronica Mechatronics is leading manufacturers of DRO EL250 in India Check high performing DRO EL250 Metrology DRO at EMS for your needs. visit http://www.electronicaems.com/EL250.php
Flexibility is the key issue for multisensor technology. Multisensor is the measuring machines are devices that combine more than one sensor on a single device. if you want to more information or buy this product visit here http://www.electronicaems.com/Co-Ordinate-Measuring-Machines.php
The document discusses different types of height gauges and their specifications. It describes Optima M and H height gauges with manual or motorized probe movement and measuring ranges from 450mm to 1380mm. It also describes Ultima and Platina height gauges with additional features like 2D measurement capabilities and longer measuring ranges. Various probe and accessory options are listed to enable different measurement needs.
Electronica Mechatronics is leading manufacturers Vertical Measuring Instruments of Height Gauges and 2D measurement ultima in India To know more about Ultima call us at 912024229398. Visit http://www.electronicaems.com/Height-Gauges.php
EMS manufactured high performance Vision Measuring Machines in India to measure small, complex parts with a single camera image. These machines require high resolution and heavy-duty cameras so that the industrial purpose is served.
CMM is basically mechanical systems designed to move a measuring probe so as to find out the geometrical location of an object. These machines provide accurate and precise measurement. Electronicaems is one of the leading manufacturer of Coordinate Measuring Machine. we provides Granite based CMM, Manual CMM, CNC, CMM, Multi sensor CMM etc
Electronica Mechatronic Systems provides Ultima and 2D measurement, We are a leading manufacturers and suppliers in all over the world. Height gauges is a device that helps measure heights of the objects, and to mark the items that need to be worked on. These machines or devices are used in metrology or metalworking. These are used to set or determine vertical distances.
Electronica Mechatronic Systems (EMS) is an Indian company established in 1980 that designs and manufactures encoders for precise position and motion control. Starting as a small company, EMS has grown to be a leading global supplier of encoders and metrology products through a focus on quality, teamwork and innovation. EMS offers a variety of optical and magnetic linear and rotary encoders, as well as digital readout systems suitable for different industrial applications such as machine tools, metrology and presses.
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How are Lilac French Bulldogs Beauty Charming the World and Capturing Hearts....Lacey Max
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rankings in rapid time despite having health concerns and limited
color choices.”
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The Genesis of BriansClub.cm Famous Dark WEb PlatformSabaaSudozai
BriansClub.cm, a famous platform on the dark web, has become one of the most infamous carding marketplaces, specializing in the sale of stolen credit card data.
How MJ Global Leads the Packaging Industry.pdfMJ Global
MJ Global's success in staying ahead of the curve in the packaging industry is a testament to its dedication to innovation, sustainability, and customer-centricity. By embracing technological advancements, leading in eco-friendly solutions, collaborating with industry leaders, and adapting to evolving consumer preferences, MJ Global continues to set new standards in the packaging sector.
[To download this presentation, visit:
https://www.oeconsulting.com.sg/training-presentations]
This presentation is a curated compilation of PowerPoint diagrams and templates designed to illustrate 20 different digital transformation frameworks and models. These frameworks are based on recent industry trends and best practices, ensuring that the content remains relevant and up-to-date.
Key highlights include Microsoft's Digital Transformation Framework, which focuses on driving innovation and efficiency, and McKinsey's Ten Guiding Principles, which provide strategic insights for successful digital transformation. Additionally, Forrester's framework emphasizes enhancing customer experiences and modernizing IT infrastructure, while IDC's MaturityScape helps assess and develop organizational digital maturity. MIT's framework explores cutting-edge strategies for achieving digital success.
These materials are perfect for enhancing your business or classroom presentations, offering visual aids to supplement your insights. Please note that while comprehensive, these slides are intended as supplementary resources and may not be complete for standalone instructional purposes.
Frameworks/Models included:
Microsoft’s Digital Transformation Framework
McKinsey’s Ten Guiding Principles of Digital Transformation
Forrester’s Digital Transformation Framework
IDC’s Digital Transformation MaturityScape
MIT’s Digital Transformation Framework
Gartner’s Digital Transformation Framework
Accenture’s Digital Strategy & Enterprise Frameworks
Deloitte’s Digital Industrial Transformation Framework
Capgemini’s Digital Transformation Framework
PwC’s Digital Transformation Framework
Cisco’s Digital Transformation Framework
Cognizant’s Digital Transformation Framework
DXC Technology’s Digital Transformation Framework
The BCG Strategy Palette
McKinsey’s Digital Transformation Framework
Digital Transformation Compass
Four Levels of Digital Maturity
Design Thinking Framework
Business Model Canvas
Customer Journey Map
How to Implement a Strategy: Transform Your Strategy with BSC Designer's Comp...Aleksey Savkin
The Strategy Implementation System offers a structured approach to translating stakeholder needs into actionable strategies using high-level and low-level scorecards. It involves stakeholder analysis, strategy decomposition, adoption of strategic frameworks like Balanced Scorecard or OKR, and alignment of goals, initiatives, and KPIs.
Key Components:
- Stakeholder Analysis
- Strategy Decomposition
- Adoption of Business Frameworks
- Goal Setting
- Initiatives and Action Plans
- KPIs and Performance Metrics
- Learning and Adaptation
- Alignment and Cascading of Scorecards
Benefits:
- Systematic strategy formulation and execution.
- Framework flexibility and automation.
- Enhanced alignment and strategic focus across the organization.
B2B payments are rapidly changing. Find out the 5 key questions you need to be asking yourself to be sure you are mastering B2B payments today. Learn more at www.BlueSnap.com.
The 10 Most Influential Leaders Guiding Corporate Evolution, 2024.pdfthesiliconleaders
In the recent edition, The 10 Most Influential Leaders Guiding Corporate Evolution, 2024, The Silicon Leaders magazine gladly features Dejan Štancer, President of the Global Chamber of Business Leaders (GCBL), along with other leaders.
Unveiling the Dynamic Personalities, Key Dates, and Horoscope Insights: Gemin...my Pandit
Explore the fascinating world of the Gemini Zodiac Sign. Discover the unique personality traits, key dates, and horoscope insights of Gemini individuals. Learn how their sociable, communicative nature and boundless curiosity make them the dynamic explorers of the zodiac. Dive into the duality of the Gemini sign and understand their intellectual and adventurous spirit.
HOW TO START UP A COMPANY A STEP-BY-STEP GUIDE.pdf46adnanshahzad
How to Start Up a Company: A Step-by-Step Guide Starting a company is an exciting adventure that combines creativity, strategy, and hard work. It can seem overwhelming at first, but with the right guidance, anyone can transform a great idea into a successful business. Let's dive into how to start up a company, from the initial spark of an idea to securing funding and launching your startup.
Introduction
Have you ever dreamed of turning your innovative idea into a thriving business? Starting a company involves numerous steps and decisions, but don't worry—we're here to help. Whether you're exploring how to start a startup company or wondering how to start up a small business, this guide will walk you through the process, step by step.
Storytelling is an incredibly valuable tool to share data and information. To get the most impact from stories there are a number of key ingredients. These are based on science and human nature. Using these elements in a story you can deliver information impactfully, ensure action and drive change.
Industrial Tech SW: Category Renewal and CreationChristian Dahlen
Every industrial revolution has created a new set of categories and a new set of players.
Multiple new technologies have emerged, but Samsara and C3.ai are only two companies which have gone public so far.
Manufacturing startups constitute the largest pipeline share of unicorns and IPO candidates in the SF Bay Area, and software startups dominate in Germany.
2. Electronica Mechatronics ( I) Pvt. Ltd
The company is engaged in the design and manufacture of encoders for precise location
and motion control. Beginning as part of Machine Tool Manufacturing 40 years ago, the
company now offers world-class precision measurement solutions.
www.electronicaems.com
3. Vision Measuring Machines
Vision measuring machines (VMM) that can quickly inspect small and medium parts with
important GD & T, and can be used in many applications. Provides high accuracy for
component inspection and significantly reduces cycle time. There are three variants of the
high-performance vision measuring instrument. Manuals for autofocus and full CNC range
are available in three sizes.
www.electronicaems.com
4. Inspec Vista
Vision machines come standard with a 1.3
megapixel CMOS camera or an optional higher
megapixel camera. The standard optics have
an optical zoom of 0.7X to 4.5X, providing a
screen magnification of almost 240X. Higher
magnifications are available upon request.
www.electronicaems.com
5. Inspec Vista 2D
• Vision measuring machines Inspec vista
2D measuring range of XYZ axis:
150x100x100mm, 200x100x100mm,
200x150x150mm
• Video system for DRo - 1/3 "1.3MPixel
USB camera for 2MPixel HDMI camera
and vision software
• Multiple LEDs white ring lights; Green
backlight
• 0.001mm Scale resolution (0.0005 or
0.0001mm option)
• The ergonomically positioned Z-axis
handwheel makes focusing easy
• No air conditioning required
www.electronicaems.com
6. Inspec Neo
• Measuring range of XYZ axis:
300x150x100mm, 400x200x100mm
• Horizontal machine bed providing
maximum loading capacity of 50 kg
• 1/3 "1.3 Mpixel color CMOS camera.
Optional CCD camera is available in
different resolutions
• A 0.7X to 4.5X (1: 6.4X) zoom lens is
standard. Motorized zoom lens of CNC
machine as an option
• The Collimated Green backlight
provides superior image enhancement
accuracy for circular parts
• 0.5μm in the case of the passive
machine, 0.1μm in the case of the CNC
machine
www.electronicaems.com
7. Vision Snap Measuring Machine
The VSM family of Vision Meters is
designed to measure small, complex
components from a single camera
image. The VSM machine uses a high-
resolution video camera with
telecentric optics and lighting
capabilities. The equipment comes with
world-class MetLogix M3 software with
unique advantages.
www.electronicaems.com
8. Contact Us
Electronica Mechatronics Systems
37 & 44, Electronic Co-op. Estate, Pune-Satara
Road, Pune 411 009. (INDIA)
02024229398
enquiry@electronicaems.com
www.electronicaems.com