Intelligent Assist Device ?

Slides:



Advertisements
Similar presentations
Robotics Where AI meets the real world. Ankit Jain
Advertisements

An Introduction to the Material Handling Equipment Manufactured by Palamatic Handling USA, Inc. Presented by Jack Mener.
Natural Laws & Car Control
1. INTRODUCTION DESIGN AND APPLICATIONS OF INDUSTRIAL ROBOTS SABARIGIRIVASAN.R ISBN
COMP322/S2000/L41 Classification of Robot Arms:by Control Method The Control unit is the brain of the robot. It contains the instructions that direct the.
AVANT has created a long awaited new type of machine – a machine that, up to now, has been missing from the market. By using modern, advanced hydraulics.
Hydraulics.
IE 447 COMPUTER INTEGRATED MANUFACTURING CHAPTER 9 Material Handling System 1 IE CIM Lecture Notes - Chapter 9 MHS.
Robots An Introduction. Various Robot Fields: Aerospace (air travel, space exploration) Exploration (underwater, space, volcanic) Entertainment Medical.
COMP322/S2000/L31 Components of a Robotic System Robot: Articulated Mechanical System with Actuators Computer Task Environment Interaction Control Language.
IEEM 110: Computing in Industrial Automation. Selected Events in the History of Automation Organized automation, mechanization: Industrial revolution,
Automated Machining Manufacturing Processes. Outline Machining Centers Equipment Tool Changers Centering and Clamping Selection of Equipment Selection.
Products/Motion Motion Controller Intelligent Technology for Moving Performance MELSEC System Q.
Part II AUTOMATION AND CONTROL TECHNOLOGIES
GABBIANI Automatic horizontal Panel Saws for pressed cardboard (transformers industry) Quality Machines from: Jai Industries.Gujarat, India
ANTI LOCK BRAKING SYSTEM
Unit 3a Industrial Control Systems
Automated Manufacturing Systems
IGCSE ICT Control.
Inertia 2 rules of inertia –1. objects move in a straight line unless some force is put upon them –2. objects at rest stay at rest.
Robots An Introduction. Various Robot Fields: Aerospace (air travel, space exploration) Exploration (underwater, space, volcanic) Entertainment Medical.
Balancer Operation Intelift Operation Installation Troubleshooting Preventive Maintenance Preventive Maintenance OVERVIEW.
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. PowerPoint to accompany Krar Gill Smid Technology of Machine.
CAD/CAM, Robotics and Automation Chapter 10, Section 10.3, 10.4 and Handout.
LEVERS by David Sagae 8th grade. LEVERS Definition: A lever is any rigid rod or plank that pivots, or rotates, about a point. The point about the lever.
MATRIX series.
Robotics Where AI meets the real world. AMAN KUMAR, SECTION –B4902.
Bravo Maxima.
CHAPTER 5 Natural Laws and Car Control. KEY TERMS  Vehicle balance  Center of gravity  Pitch  Total stopping distance  Perception time  Perception.
MECVEL SIGNS THE “SLIDING DOORS” REMAKE: SLIDING DOORS ONLY WITH OUR LINEAR ACTUATORS!
CLOSED LOOP SPEED CONTROL OF DC MOTOR WITH PWM TECHNIQUE
©2008 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. This material is protected under all copyright laws as they currently exist.
Bio-physical principles Apply to your skill. 3 parameters that affect projectile motion Angle of release (and air resistance) –Determines SHAPE of trajectory.
Machine tool components division
What is SBC ? Sensotronic Brake Control (SBC) is the name given to an innovative electronically controlled brake system which will fit to future passenger.
Industrial Automation and Robotics Mr. Muhajir Ab. Rahim School of Mechatronic Engineering UniMAP.
Pick N Place Robot. Pick N Place Robot Introduction:  Pick and Place robot is the one which is used to pick up an object and.
20/11/161 NEW E5 FINN-POWER e-technology - 14 years of excellence.
Part II AUTOMATION AND CONTROL TECHNOLOGIES
Speed, Power, Torque & DC Motors
Mechatronics.
Natural Laws and Car Control
Servo Systems Servo is mechanism based on feedback control.
Introduction to Electrical Drive
FlowArm PLTW Motions Computer Integrated Manufacturing
OBJECTIVES Explain the principles involved in regenerative braking.
BUT OUR PN-INDEVA ARE TRUE “BALANCERS” ! !
BUT OUR I.A.D’s IS A TRUE “BALANCER” ! !
ANTI LOCK BRAKING SYSTEM
Forging new generations of engineers
Introduction to Robots
H-BRAKE Hybrid Serie.
Servo Systems Servo is mechanism based on feedback control.
The advantages of going wireless
FINN-POWER e-technology - 14 years of excellence
What is SBC ? Sensotronic Brake Control (SBC) is the name given to an innovative electronically controlled brake system which will fit to future passenger.
Machine Guarding Element Summary Training
Automation (자동화) Associate Professor Su-Jin Kim
Special English for Industrial Robot
Automation Topics: Elements of an Automated System
Electric braking Powerpoint presentation by:- Poonam sharma
Forging new generations of engineers
PIPE LIFTING KIT HAMMER MULETRAX 2300 C
Special English for Industrial Robot
VEIT Hand Ironing Technology
VEIT Hand Ironing Technology
The smart choice for demanding motor switching
Introduction to Motor Drives
Maker Education Manipulator
Presentation transcript:

Intelligent Assist Device ? An Intelligent Assist Device is an intelligent industrial manipulator that allows the operator to handle any load with almost no effort, within the work cycle area. As specified by the Robotics Industry Association (USA), an Intelligent Assist Device or IAD is a “single or multiple axis device that employs a hybrid programmable computer-human control system to provide human strenght amplification, guiding surfaces or both”. Intelligent Assist Devices are based on a mechatronic technology that, thanks to sensors, controls and servoassisted motors, endows the system of great responsiveness, providing important advantages: IADs, in fact, allow operators to handle and position any load with much more precision, speed and ease, thus increasing productivity significantly . They contain the controls and the technology required to assist the worker in a way that the device operates as an extension of the worker’s arm Please, Click for see the next slide

IADs vs. traditional handling devices Compared to the traditional handling devices, such as hoists or pneumatic manipulators, IADs offer the following advantages: Precise positioning of the load as they allow for accurate and rapid movements, while traditional handling devices overtravel, bounce and require lots of little corrective movements that, added to cycle time, reduce productivity. Improved ergonomics by requiring almost no effort from the operator. Thanks to the microprocessor based control, the system recognizes the operator’s intentions and supplies energy to win inertia both during acceleration and braking. IADs react to every minimum impulse by the operator much more quickly than the traditional pneumatic manipulators. Speed: IADs respond swiftly, yet smoothly to human touch, winning inertia both during acceleration and braking, amplifying operator movements. The operator notices no time lapse between the machine’s sensing and its response. IADs are not affected by the technological limitations of the traditional air manipulators and hoists, thanks to modern digital drives and servomotors.

Continue…Intelligent Assist Devices vs. traditional handling devices Intuitive control. IAD systems compared to the conventional balancers which are preset for one or two weights, get automatically and instantly adjust the setting according the weight of the load, thus allowing to handle loads of varying weights without having the operator to reset the system each time. Moreover, thanks to digital technology, IADs can save the value of the load weight in order to allow direct handling (“float mode” or “hands on the load” control) with no need to use handles or to press buttons. Handiness: traditional handling devices require unwieldy and heavy lifting tools (end effectors) while IADs allow for light and compact lifting tools which ensure greater visibility during handling operations and and greater ease in moving and positioning loads.

Continue…Intelligent Assist Devices vs. traditional handling devices COMPARED STUDY A study by the Rochester Institute of Technology Center for Integrated Manufacturing Sudies (November 20, 2002) proved that the traditional lift devices attain significantly fewer lifts per time unit than IADs both during palletizing (36,2% less) and when precision placement of the load is required. The above mentioned study also proved that traditional lift devices, which lack of intuitive and responsive control, are associated with peak impact forces 18% to 45% larger than the average of an IAD, thus increasing the risk of damage to delicate products or supports during positioning.

Continue…Intelligent Assist Devices vs. traditional handling devices As a conclusion IADs, thanks to the above mentioned features (positioning precision, greater ergonomics, working speed, handiness and intuitive use) require far less forces by the operator than traditional handling devices (air balancers, hoists, electric or pneumatic fixed speed lift devices) and are the only material handling solution to meet today’s urgent needs for increase productivity, safety, ergonomics.

I.A.Ds of the Liftronic series by Scaglia INDEVA S.p.A. Thanks to its feature of automatic and immediate compensation of the load weight a Liftronic series IAD allows the operator to handle loads with different weights or loads that vary their weight during handling (eg. emptying out containers/drums) with no stop times at all for turning selector or resetting the system. 2. The Liftronic series IADs furthemore features the “float mode control which allows both hands on manipulation of the load, without actuating the control handle, saving valuable time. It makes the most of the natural human ability to coordinate and control motion, thus allowing for a more intuitive control and consequently for a more precise and quicker positioning of the load, especially when this have to be placed in a narrow target as gently as possible.

Continue… I.A.Ds of the Liftronic series by Scaglia INDEVA S.p.A 3. The Liftronic series IADs is equipped with a special fingertip control which is an in-line force sensing handle providing extremely fine control of up/down speed and immediate response to the operator forces upward /downward, thus drastically reducing inertia. This means operations are smoother, quicker and easier. 4. The Liftronic series IADs feature quick coupling device for quickly interchanging end effectors and lifting different types of loads with no downtimes at all.

http://www.c-f-dipietro.com – christian@c-f-dipietro.com CONCLUSION: Scaglia INDEVA S.p.A. is designing and producing a wide range of electronic and pneumatic industrial manipulators since 1975 . In 1994 has been introduced a serie of “Intelligent Assist Devices” based on programmable logic and endowed with “float mode control “ and “sensitive handle” . Scaglia boasts the greatest expertise worldwide in designing zero gravity systems for materials handling http://www.c-f-dipietro.com – christian@c-f-dipietro.com