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“Achieving excellence through IT and Automation a Bharat Forge Experience” Ninth ARC India Forum, Pune August, 2011 Achieving Operational Excellence Through IT and Automation Solutions This presentation is intended to provide a corporate overview of ARC and the services we provide to the Manufacturing and Supply Chain communities. Mukund V Mavalankar Director Technical Bharat Forge Limited Photograph of Speaker
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Global Profile of Kalyani Group Energy & Infrastructure
. Key Companies in the Group INDIA CHINA EUROPE USA Kalyani Steels Ltd Kalyani Carpenter Special Steels Kalyani Gerdau Engineering Steel CDP Bharat Forge GmbH, Germany Bharat Forge Daun GmbH, Germany Bharat Forge Aluminiumtechnik GmbH, Germany Bharat Forge Kilsta AB, Sweden Bharat Forge Ltd Kalyani Thermal FAW Bharat Forge BF America Forgings Automotive Axles Ltd Kalyani Lemmerz Auto Components BF Utilities Kenersys India BF Alstom Khed Earth – The City Energy & Infrastructure Kenersys GmbH, Germany Specialty Chemicals Hikal Chemicals Ltd Marsing, Denmark
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Bharat Forge – Global Profile
5 1 CDP BHARAT FORGE Ennepetal, Germany 3 1 4 CDP FORGE Daun, Germany 2 2 6 BF ALUMINIUMTECHNIK Dresden, Germany 3 CAPACITY 135,000 tons JV with FAW in China with 52% stake Foothold into fastest growing market Dual Shore Manufacturing Manpower: 1500 People BF AMERICA Lansing 4 BFL BHARAT FORGE KILSTA, Sweden 5 6 FAW BF (Changchun) Co. Ltd. Changchun, China CAPACITY 365,000 tons Worlds largest single location forging facility Technologically advanced, flexible forging & machining facility Proximity to fast growing Auto markets of China & india Dual Shore manufacturing Manpower: 4700 People CAPACITY 200,000 tons Production base close to the customer Proximity to large marquee Customers Dual Shore manufacturing Manpower: 1060 People CAPACITY 60,000 tons Strong Foray in the largest auto market USA Strong customer relationship Dual Shore manufacturing Manpower: 83 People Capacity over 750,000 Tons per annum Crankshaft machining capacity of over 1 ,200,000 nos. Capacity to machine 500,000 FAB & 750,000 steering knuckles
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Objectives Till 1989 BFL was using manually operated pneumatic hammers for making forged parts. Under the technology up-gradation initiative investment in two large completely Automatic forging lines. The benefits envisaged Improvement in Quality Improvement in Productivity Reduction in costs Saving in Energy Saving in Raw material
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Layout of First Fully Automatic forging line
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Scheme Sequential control for forging line
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Integration of diverse programmable controllers.
Advantages of hierarchical control Integration of diverse programmable controllers. Ease of sequential control and programming multiple part types . Ease of diagnostics. Ease of monitoring complete line. Consistent process parameters leading to consistent quality and higher OEE.
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Second wave of automation 1997
Automatic, programmable screw press with controlled energy for every blow and regenerative braking. Judicious use of combination of Fully programmable Hydraulic Robots First use of Electric robots, Dedicated manipulators Power and conveyors and walking beams. Complete line integration with Animated displays Single Console Operation First Use of Profibus Hierarchical PLC controls Use of Automatic application of Die lubricant
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Up-gradation of Central Control 2011
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Third wave of automation
The Kurimoto line was set up in This has taken BFL to next level of Automation. The salient features are First Use of High speed Carbide saws First Use of Transfer Presses First fully integrated single flow line in BFL Power and free cooling conveyor and over head gantries. Robots 6 Axis all Electric Reduced cycle time 8 sec untwisted/ 12 sec twisted cranks Increased productivity Mass production of passenger car cranks.
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Next level of automation with remote I/Os
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Case Studies in machined components division
Two case studies Cooling tower Flow control through automation to achieve Energy Conservation. Automatic Monitoring of machine Parameters & pop up error messages on machine screen.
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Flow Control in Cooling tower
Cooling Tower is used for Cooling the Electrical switch-gear as well as quenching media. In MCD1 we have used single cooling tower for more than 15 machines. Before Implementation Before 3000 Per Day Energy 3000 Units Sudden Starting tend to reduce Switch-gear life. Also Flow control adjustment required. No Control on Real Time Basis
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Sense the number of machine running & decide the flow requirement
Flow Control in Cooling tower COOLING TOWER M/C M/C M/C M/C M/C WATER IN Temperature Sensor M/C M/C M/C M/C M/C Temperature Sensor M/C M/C M/C M/C M/C WATER OUT Sense the Difference in Temperature of Incoming & outgoing lines & Decide the Flow & Exhaust Fan requirement Sense the number of machine running & decide the flow requirement MOTOR CONTROL DRIVE PANEL On Real Time basis switch On & off the Cooling tower in Lunch / Dinner time Drive PLC Interface
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After Flow Control in Cooling tower Sr No Parameter Before After* 1
1750 Sr No Parameter Before After* 1 Power by the Cooling tower 120 KW 72 KW 2 Power Factor 0.8784 >0.94 3 Unit Consumption per month 65000 Units 35000 Units 4 Energy Cost (per Month) ` 325,000/- ` 175,000/- 5 Savings in Energy cost 46% Per Million Contribution reduced by `1000 for MCD1
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Manual monitoring of Machine Parameters
Machine Parameters are monitored for Predictive / Preventive Maintenance Plan. This was done manually by the operator and relevant data was entered in the logbook. Action Plan is communicated manually by each operator. No interlock with machine Logic if any parameter is out of range.
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Machine CNC System (To generate Fault on machine screen)
Machine Parameter Monitoring Separate Control System Designed & programmed for automatic monitoring of Machine Parameters Programmable Controller Machine CNC System Machine CNC System (To generate Fault on machine screen) Machine Oil Level Temperature Pressure Preventive Maintenance
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Summing up However we have challenges to overcome
Challenging Environment for Automation products High Temperatures High level of Dust, Scale, Graphite and water High impacts and rough use We have huge scope to automate our forging lines by Automatic application of Die Lubricant Automatic control of Die Temperature Automatic monitoring of presses and motors Automatic inspection of Forged parts with Vision systems Automation of Post Forging operations We have consistently used Robots and automation effectively to be More Productive More cost Effective More Energy efficient More Environmental Friendly
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