Robotics Industry Insights
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Manufacturing Competitiveness through Robotics and Automation
by Kevin Ostby, Vice President General Industries
FANUC America Corporation Posted 08/12/2005
Challenges facing North American manufacturers have escalated as the manufacturing industry struggles to stay competitive in the global marketplace. Labor costs, tax rates, health care costs, retirement costs, tort costs and pollution abatement costs are just some of the problems.
Recently, the following initiatives were outlined by the U.S. Government with a focus on improving manufacturing competitiveness:
1. Reduce taxes related to manufacturing
2. Conduct a regulatory review
3. Lower health care costs
4. Modernize the U.S. legal system
5. Enact energy legislation
6. Establish a President's Manufacturing Technology Council
7. Ensure an appropriate focus on innovation and productivity enhancing technology
8. Train employees
In reviewing the U.S. Government's list, a majority of the initiatives will take a great number of years to accomplish. The one area where manufacturers could secure results immediately, while maintaining control, is the use of innovation and product enhancing technology. The state of the manufacturing community has changed. Quality and efficiency have become essential which has shifted the focus to lean manufacturing and the Six Sigma process. Automation and robotics are also credited with improving efficiency and quality.
Some manufacturers are concerned investing in automation and innovation will displace workers. The fact is if manufacturers do not innovate and embrace automation, they will leave themselves open to loosing their entire facility, company, or worse to outsourcing.
Product enhancing technologies such as automation are having as big of an impact on the economy as last centuries farming technologies. Agricultural workers constituted more than 38 percent of the employment in the U.S. in 1900, while today they are about two percent of the work force, yet we produce more of the world's food.
A similar analogy can be drawn with the U.S. Steel Industry. The number of U.S. workers employed by the U.S. steel industry dropped by 74 percent from 289,000 to 74,000, while increasing output by 36 percent from 75 million tons to 102 million tons.
In both examples, the number of workers fell, but productivity climbed. In manufacturing, the choice has been to outsource work to countries with low cost labor. The message is clear. We must make way for advancing technologies or the North American manufacturing industry is in trouble. This can be done by focusing on innovation.
There are numerous factors to consider when moving manufacturing operations overseas including; factory efficiency, inventory requirements, the strength of our labor force, government support and stability, supply chain strength and intellectual property protection, among others. Producing products in other countries such as China also provide challenges in maintaining high quality parts. Counterfeiting costs the global automotive parts industry $12 billion a year; $3 billion of that total is in the United States. 1 In addition, according to the U.S. Embassy in Beijing, companies investing in the Chinese market underestimate the market situation, failing to perform risk assessments and seek council. This allows investors to fall into bad business deals, resulting in lost investments, and making doing business in China a risk.
Companies should weigh these unknowns and investigate opportunities within their current facility to assist in remaining competitive. All data supports the fact that through automation, robotics and other lean manufacturing operations, North America can be cost competitive with countries like China.
Several factors that are directly impacted include: quality, efficiency, increased control and viability. An automated facility manufactures the highest quality products, enabling manufacturers to optimize current capital, labor resources, maintain control of their operations, strengthen North American manufacturing leadership and retain jobs, all while leading to significant cost improvements. Industrial robots provide a number of direct and indirect economic benefits. One robot can perform the work of three to five people, reducing the cost of labor. Over the next three decades, 76 million baby boomers will retire and only 46 million new workers will be available to replace them. 2 The demand for labor will continue and automation is the answer.
Cost is an important factor in choosing to move a factory overseas. There is key evidence that demonstrates automation and robotics can provide the cost savings companies are looking for without outsourcing. Lincoln Electric, the worlds' leading designer and manufacturer of arc welding products, robotic welding systems, and plasma and oxyfuel cutting equipment recently worked with a customer who was considering moving their factory overseas. Lincoln Electric's cost analysis of part production in China versus the cost of automation, found their customer's manual process resulted in a cost of 84 cents per part. When they investigated producing the part in China, it was 30 cents per part, while investing in robotic welding in the U.S. also cost 30 cents per part.
Although the price appears to be similar, robotics provide enhanced quality, improved process control and significantly reduced lead times compared to China.
In addition, robots help manufacturers optimize equipment cell layout, floor space usage, work piece flow, and flexibility. In addition, robotics eliminates human error, reducing handling accidents and losses and can be in used in a variety of applications and locations. 3
Another example of how robotics assisted in strengthening a company is demonstrated through Mennie's Machine Company. A manufacturer of automotive drive shaft components for sport utility vehicles and full size trucks, Mennie's Machine Company invested in robotics to meet their customer's demands for speed and quality. Their manual system yielded 80 pieces per hour, making it difficult to overcome bottlenecks in the system, preventing them from achieving their 118 pieces per hour production goal.
FANUC Robotics developed a series of robotic work cells linked through a common part transfer conveyor. The fully automated system incorporates material handling robot models equipped with HandlingTool and Collision Guard Software, customer grippers and a control interface. The entire system consists of ten consecutive processes linked by a conveyor.
Production quality also was addressed by tracking scrap dollars. During final inspection, each part is examined for dimensional tolerance and cosmetic appearance. Rejects are tagged and then further evaluated to determine how to eliminate inaccuracy. Robotic automation has contributed to a reduction in scrap rates. The three-shift operation is running at 95 percent uptime, a 15 percent increase over the previous manual operation. The robotic system has helped to reduce total production costs by approximately 25 percent. The system is expandable to accommodate additional machines and can easily accommodate new part designs.
Because they chose automation, Mennie's has experienced competitive advantages including:
- Accurate and consistent part loading
- A reduction in part defects
- Increased productivity – typically 120 pieces per hour
- Improved control of the entire manufacturing system
- Less cost per piece
- Flexibility to meet future production demands
Automation and robotics provide a variety of benefits to the manufacturing community including improved efficiency, better quality, reduced piece price, minimized risk and improved control of operations. Of all the forms of automation, robots prove to be the most flexible and offer more opportunities for companies to maintain profitability.
1 'Facts' MEMA. 26. Oct. http://www.mema.org/counter/facts.php
2 U.S. Census Bureau
3 'Moblie Robots Fit Well Into Flexible Manufacturing Systems' Society of Manufacturing Engineers.
Originally published by RIA via www.robotics.org on 08/12/2005