LINAK wanted to become faster and more responsive to customer needs and market changes. Management’s goal was to create a highly disciplined product development process that always hit milestones with 30–40 percent faster lead times. Download Fallstudie
Managing Steady Growth
In 1980, LINAK’s owner and CEO, Bent Jensen, developed the fi electric linear actuator. Linear actuators convert the rotational motion of a low voltage DC motor into push-pull linear movements. Combined with electronic controls, they can lift, adjust, tilt, push and pull heavy and hard- to-reach objects.
Today the LINAK Group headquarters in Guderup, Denmark, spans over 400,000 sq. ft. of engineering and production space. The company is divided into four market-oriented business units. LINAK’s linear actuators feature lifting capacities from 45 to 2,700 lbs. The primary applications are adjustable beds, adjustable desks, heavy-duty machinery and outdoor equipment.
One of the biggest challenges of that initial quality improvement project was top management, he remembers. Managers had a tough time getting used to the different pace, new metrics and more deliberate quality control processes. But they persevered and today, when he visits customers, Frost happily reports that he rarely hears about quality issues.
In 2005, the company began implementing lean manufacturing practices in its production areas. That initiative eliminated excess handling, movement and inventory, significantly increasing throughput and productivity. The results of their ongoing lean efforts are readily apparent today in the orderly material flow in the company’s production areas, highly visible performance reporting boards and exceptional on-time delivery performance.
Both the quality initiative and introduction of lean production methods changed the LINAK culture, according to Frost. The company became more process-oriented, more systematic, more careful and, in some cases, slower than their competition.
“Compared to other companies at our revenue level, I think we are still pretty agile, but some bureaucracy has sneaked in. It takes longer to develop a product today than it did years ago because there are many more activities, like FMEA [failure modes and effects analysis],” he says.
Challenge: Product development cycles became inconsistent and slow after recent decades of dramatic growth. Company leaders wanted to redesign the product development process to accelerate lead times and hit launch targets.
If At First You Don’t Succeed, Try Again
Not long after LINAK implemented lean manufacturing practices in its production areas, it launched lean initiatives in its R&D departments. The process changes didn’t take root. Frost says the company wasn’t far enough along to apply lean to R&D. Today, however, they are ready.
TBM began working with LINAK to design and implement a new product development process in the first quarter of 2014.
Management liked the kaizen workshop approach which forced cross-functional agreement and cooperation.
“A more structured way of doing R&D will give us speed and efficiency,” says Frost. “We don’t want to go full speed in R&D and then, all of
a sudden, find that operations or the quality department can’t cope.”
Following an initial assessment of past projects, the first kaizen event team mapped out each phase of the current development process on a long sheet of brown paper. It was enlightening. Everyone had a rough idea of the process which had become messier over the years, but no one really had a detailed view of everything that happened from idea generation to product launch.
“It was a very intense week,” recalls Ashwin Badve, Senior Management Consultant and Director of LeanSigma for Strategic Growth. “But the team was able to come together, identify major opportunities and make some decisions that would have typically taken nine to 10 months.”
During subsequent kaizen workshops, improvement teams designed the new development process from the initial idea and project team formation through product launch and business review. One team analyzed the development workload by function, including sales, mechanical engineering, electrical engineering, purchasing, production engineering, quality and marketing. They then established detailed flow and time estimates and incorporated them into a new three-tier development process based on product complexity: low (6 months), medium (12 months) and high complexity (18 months).
During the initial assessment, we noted that they had more of a "tunnel" than a "funnel" for prioritizing projects.
Solution: We analyzed the current development process and designed a three-tier process based on product complexity. This included periodic portfolio reviews, restructured project planning, performance management, and weekly escalation meetings to quickly resolve issues.
Linak's Objective: Launch New Products 30-40% Faster.
To achieve the objective, Linak Kaizen teams:
- Analyzed the development workload by function
- Established detailed flow and time estimates
- Created a three-tier development process based on product complexity
- Implemented a periodic review of new product ideas to actively manage the product portfolio and align resources
- Created a restructured planning and performance management process to monitor tasks and due dates
- Developed and tracked KPIs (planned vs. actual hours and completed dates)
- Established weekly escalation meetings to address failures and road blocks software
The new approach also includes a periodic review of new product ideas to align resources and more actively manage the company’s product portfolio. “During TBM’s initial assessment we noted that they had more of a ‘tunnel’ than a ‘funnel’ for prioritizing projects,” says Badve.
A restructured project planning and performance management process monitors tasks and due dates. They are also tracking key performance indicators (planned to actual hours, and completion dates, for each task) to drive future improvement.
Going forward, product development managers will address any failures or roadblocks in weekly escalation meetings. “In R&D you’re typically trying to do something that has never been done before,” Frost concludes. “A lot of strange things can happen, and it’s rare where you have a project that runs as you believed or anticipated.”
Results: After more than a year of planning and initial implementation, the company was well on its way to achieving 30-40% faster product development lead times.