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Why Rebuilds Make Sense

Todd Suppes of Toyoda Machinery USA revisits the fact that when money’s tight, reconditioning, remanufacturing, or rebuilding machine tools can mean big productivity gains at big savings.

Posted: August 11, 2008

Rebuild or buy new? This is a question often discussed as production requirements change or new part types are introduced into your shop environment. If your budget does not allow for the purchase of new machines and the current machines you have successfully used for years are not capable of meeting new tolerances, cycle time requirements or need a large amount of maintenance, you should assess the value of rebuilding your existing machine tool assets.

If this decision is made, you have a reliable and cost-effective choice ? OEM-certified machining center rebuild. Major benefits include the familiarity of maintenance and operator personnel with the equipment, reuse of durable tooling, and using existing footings and building service drops. These are large financial incentives to reutilizing existing machines.

While it's true that today's machining centers can be more productive than those of 15 years ago, most machining centers are not exponentially faster than those of three, five, and in many cases, 10 years ago. While the gain in speeds, efficiencies, and ease of programming for linear guide way machines are worth noting, box-way construction machines have seen minimal increases in speed and overall machine efficiencies.

However, the durable construction of this type of equipment cannot be surpassed for aggressive machining or high-volume production requirements in steel or other ferrous materials. These machines or high-end linear way machine tools are often the "best fit" candidates for rebuild or complete overhauls.

Many factors need to be considered in the rebuild vs. new decision:
? What portions of your current equipment are sound and what updates are available for those that aren't?
? What standards or tolerances need to be taken into account for machine performance?
? What is the availability and timetable for repair/remanufacture/rebuild services versus delivery of new equipment?
? Who is doing the work and what warranties are available?
First, it is useful to have a general understanding of what the terms mean when considering upgrading current equipment or requesting proposals:
? Repair. Fix or replace whatever is broken to return the machining center to operation as quickly as possible.
? Schedule B. An evaluation of the machine tool that can be performed on the customer's or the machine rebuilder's shop floor. This evaluation identifies the areas of the machine requiring repair or replacement.
? Recondition. Bring existing machine elements back to as close to original condition as possible or better. This may include partial geometric requalification of the base, column, or other components, as well as the partial or full rebuilding of various subassemblies.
? Retool. Involves the machine rebuilder providing newly designed or upgraded tooling, fixtures, and workholding systems for new part types or for increasing efficiencies on existing part types. This may require updates to hydraulic, pneumatic, or electrical control devices.
? Partial Rebuild. Bringing the
machine's subassemblies and peripheral components back to original OEM mechanical tolerances and operating conditions.
? Complete Remanufacture. This entails the complete teardown of the machine to its base and rebuilding or replacing mechanical, hydraulic, and pneumatic assemblies. It also includes repair or replacement of guarding, seals, wipers or other barriers to critical machine components. Complete control retrofits or upgrades can also be performed at this time.
? Control Retrofit. Removal of existing control and drive mechanisms and replacing with updated components.

HEALTH INTEGRITY REPORT

Often, when a customer has a candidate machine for rebuilding, the most useful tool to consider is a machining center health integrity report, which can be performed on the customer's shop floor or upon arrival of the machine tool at the facility.

This type of evaluation begins with making general observations of the machine tool's overall condition and any current issues as reported by the shop maintenance department or operator personnel. This is then followed by a review of the machine's statistical quality performance. Further assessments are then performed, such as machine geometry evaluations, ballbar inspections, X-Y-Z laser checks, spindle inspections, and in-depth overall assessments of the machine tool's electrical and fluid power systems.

Due to this thorough inspection and the attendant teardowns and inclusive inspections, customers should be aware that evaluation fees are not uncommon for such a service. Credible OEMs, however, use the information such reports provide as a starting point for a comprehensive rebuild proposal and often credit the price or a portion thereof against the actual rebuild costs.

WHO'S DOING YOUR REBUILD WORK?

Pay attention to the level of service. Are all reports, timetables, parts lists, and prices clearly stated? Does the company have the experience, depth, and support to stand behind its work? Are you getting the best combination of engineering, experience, expertise, and service for your investment?

Every rebuild is unique, but generally costs for full mechanical rebuilds are significantly less than a similarly sized and optioned new machine. Rebuilding existing equipment can reap large economic benefits for those lacking funding for new equipment purchases. And selecting an OEM or OEM-certified rebuilder ensures parts and performance meet your and your customers' expectations.

Todd M. Suppes is the Aftermarket Sales Manager for the Automotive Division of Toyoda Machinery USA, 51300 West Pontiac Trail, P.O. Box 1003, Wixom, MI 48393, 248-926-4577, tsuppes@toyodausa.com, www.toyodausa.com.

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