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News Release from: Renishaw | Subject: RGH24/25 encoders
Edited by the Engineeringtalk Editorial
Team on 27 June 2005
Encoders enable robust, versatile
machine design
Machine Solutions selects Renishaw RGH24/25 encoders with flexible tape scale and LED alignment/signal alarm for precise, automated balloon folding and stent crimping.
A miracle of modern medicine, interventional stent therapy opens up clogged heart and peripheral vessels to restore normal blood flow, minimise damage to the heart muscle, and reduce incidence of heart attacks Manufacturing stent delivery systems, however, was a slow, labour-intensive manual process - often taking 45 minutes per system
This article was originally published on Engineeringtalk on 3 Sep 2008 at 8.00am (UK)
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That changed when Machine Solutions (MSI), in 2001 introduced equipment engineered around patented technology to automate the processes and deliver unmatched precision and repeatability, while cutting processing time down to seconds.
The automated equipment pleats and folds balloon catheters and crimps metal stents, compressing them down to small enough diameter and optimised profile for insertion into the body through a blood vessel.
The MSI machines combine patented segmental compression technology (US Patent 6,629,350) with Renishaw RGH24/25 optical encoders to "pack the charge" for precise, predictable expandability when positioned at the point of blockage.
The innovative designs have quickly made Machine Solutions a global leader of automation technologies for stent and catheter manufacturers.
Balloon form/fold/set (FFS) equipment from MSI uses the patented compression capability in a unique WavePleat Technology mechanism to pleat and compactly fold angioplasty and stent deployment balloon catheters.
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The WavePleat technology process quickly produces precise, consistent, and repeatable balloon profiles without the need for operator hand folding.
The automated process takes 30 seconds on average, says Scott Mickelson, project manager on MSI's design team.
This compares with up to 45 minutes or longer for sequential manual pleating, folding and thermal stabilisation.
"Besides the enormous labour saving for stent manufacturers, automation also ensures a more precise and repeatable process", says Mickelson.
Such precision is critical.
The balloon needs to be uniformly folded, he explains, so there is no interference when the stent is crimped down around it and no irregularities when the balloon and stent are expanded inside the blood vessel.
A Renishaw RGH24 encoder, mounted in a partial arc, controls wave pleat and folder motion to 5um resolution, notes Mickelson.
"We've used the RGH24 as original equipment since the introduction of the FFS machine, but recently started upgrading new machines to the smaller RGH25".
Machine Solutions also selected Renishaw encoders for its SC family of stent crimping machines.
Configured as a diameter encoder, the RGH24 performs continuous crimp diameter monitoring as the stent is compressed around the folded balloon.
MSI's segmental compression mechanism applies even, highly repeatable radial compression.
The versatile machines accept all kinds of stent configurations - bare metal, polymer-covered, drug-coated, balloon-expandable or self-expanding.
The stent machines accommodate each manufacturer's' unique strut design while protecting the surface integrity of the crimped stent.
The uniform crimping control especially protects vulnerable stent edges, says Mickelson.
Beyond quality advantages, automating the process eliminates prereduction crimp steps, greatly reduces cycle times, and significantly improves production yields, he points out.
MSI offers the medical industry's largest range of stent crimping equipment, he notes.
It offers units suited to R and D, pilot production, and varying manufacturing requirements.
MSI did a comprehensive search and evaluation of encoders for its stent automation machines, according to Mickelson.
A combination of factors led to the final selection of the Renishaw RGH24 optical encoder - high resolution and repeatability, small physical size, no-wear optical design, LED-guided alignment simplicity, and the application versatility of Renishaw's flexible metal tape scale, which allows use in linear or radial applications.
The RGH24 read head measures only 36 x 13.5 x 14.8mm and weighs just 12g.
The RHG25 read head, with separate interpolation electronics, has the same length and width, but is only 10.5mm high and weighs only 9g.
The Renishaw encoders combine the compact read heads with flexible, adhesive-backed steel tape scale.
"The flexible scale allowed us to mount the linear encoders in partial arc configurations to meet our design needs", notes Mickelson.
"We order the scale in a 15ft roll and just cut the length we need".
Gold-plated and protectively coated, the reflective 20um pitch scale provides a linearity and slope-corrected accuracy of +/-3um/m.
The optical read head rides above the scale at a slight standoff.
The open, noncontact design avoids problems from hysteresis and seal friction/wear.
Patented filtering optics in the read head provide excellent immunity to dust and scratches.
The read head averages the reflections from over 80 scale facets, effectively filtering out signals which do not match the scale period to ensure signal accuracy and stability despite contamination or minor damage.
A red/green LED on the read head or interface allows speedy setup and provides confirmation of optimum scale alignment.
The LED is also tied into a signal monitoring circuit, providing visual alert of low signal amplitude to prevent unrecognised loss of encoder count.
"It's critical for us and our customers to know that the unit is aligned", says Mickelson.
"If it's not, our machine is missing counts, which means that our diameter could be off.
The LED shows if we're aligned or not".
"The LED gives the Renishaw opticals a major advantage over magnetic encoders", he adds.
"You don't know if a magnetic is aligned or not".
"That's a huge downside".
"Should customers do routine maintenance, they wouldn't know if the machine is aligned".
Further assuring accuracy, the RGH25 provides an error line output that can be used to cause the machine to error if there is a fault, rather than carrying on with the possibility of a miscount.
The Renishaw encoders are available with either digital or analogue (1V peak-to-peak or microcurrent) outputs.
Digital read heads produce differential line-driven quadrature signals to industry standard EIA/RS422.
The differential line driver outputs provide exceptional noise immunity in harsh electromagnetic environments, enhanced by double-shielded, high-flex cable.
The Renishaw encoders give MSI a robust, versatile design with demonstrated reliability in industrial environments as it seeks to expand applications for its sequential compression technologies.
MSI says that nearly any application which requires even, radial compression or processing of shape-memory materials could potentially benefit from its proprietary segmental crimping technology.
According to Mickelson, the company is currently exploring niche applications in microelectronics, fibre optics, wire-and-cable and consumer products manufacturing.
Interventional stent therapy involves the precise manufacture, preparation, placement and expansion of an angioplasty balloon and metal stent to open up and relieve a blockage in a blood vessel.
The angioplasty balloon must be precisely folded to less than 0.10in diameter, then fitted inside the metal stent.
Next the stent is evenly crimped down around the balloon.
Mounted on the end of a catheter, the balloon/stent is inserted into a blood vessel and remotely maneuvered into position by the physician.
The balloon is inflated, the outward pressure re-expanding the stent to force open the blockage.
The balloon is deflated and withdrawn, leaving the metal stent in place. Request a free brochure from Renishaw ...
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