Does it feel like safety and productivity are at odds with each other?
If you said yes, you’re not alone. Safety has traditionally been associated with compliance while productivity has been associated with competitiveness – both with separate, sometimes competing, paths to meet specified goals.
Rather than a ‘bolt-on solution,’ designing safety into your machinery upfront can produce a more holistic system that can be optimized for faster recovery.
In fact, incorporating integrated safety technologies in the design stage can increase machinery availability, reduce mean time to repair (MTTR) and improve productivity. Safety and productivity in one package? That’s a significant value for end users.
Lockout/Tag-Out Improvements Can Save Millions
When talking about a place to start, here’s where you can help end users save real money: a typical lockout/tag-out downtime event.
Consider an improvement of just one minute to an entire lockout/tag-out process that averages 12 minutes.
This improvement is about 8% of the current MTTR – but the savings add up over time.
If the production value per minute equals $1,000 and a manufacturer has an average of eight downtime events per day in 350 production days per year, their savings would amount to $2.8 million annually.
Here’s how that looks:
Understand and Work With Standards
Both U.S. and Canadian standards require lockout/tag-out during machinery servicing to prevent unexpected start-up, energization or release of stored energy that could cause injury.
That often means performing the exhaustive lockout/tag-out process several times per day for servicing events.
The standards, however, do provide exceptions for minor tool changes and adjustments, and other minor-servicing activities.
When you understand the standards (including ANSI/ASSE Z244.1 and CSA Z460) and alternative measures, that’s when you can achieve significant productivity gains.
This whitepaper, "Design Your Safety System for Improved Uptime," (PDF) will guide you through some of the core contemporary safety technologies, relevant standards and industry application examples – all with the goal of maximizing safety while enhancing machinery uptime.
It’s part of a larger body of work and a key consideration for developing smart machines and equipment (PDF).