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Transducers wirelessly check torque

16th July 2019


TorqSense transducers are playing a vital role with leading edge medical test kits at Axis-Shield in Dundee, Scotland, which develops new diagnostic compounds that help with the early identification and management of critical illnesses.

Axis-Shield identifies new markers for spotting cardiovascular and neurodegenerative diseases, rheumatoid arthritis, sepsis, vitamin deficiencies and diabetes. Catching early signs of such conditions during routine medical check-ups means treatment can be started in a timely manner, which leads to improved patient management, either curing or managing the problem.

The compounds it develops are initially produced in low volumes, where automated processes are not appropriate. This moves to medium volume production once the product has been proven, approved and certified and the medical fraternity begin using it.
 
Some compounds later move into high volume production, but it is in the very nature of medical advancement that in other cases Axis-Shield will keep on improving the formulations and developing new products fairly quickly. Thus Axis-Shield has a need for highly efficient medium volume packaging solutions that guarantee accurate and consistent adherence to performance parameters.

This led the company to commission a bespoke packaging line that could handle multiple products in a variety of different packaging formats at a rate of around 500-2500 units per hour. The line fills bottles or other forms of container with the compounds, caps them, labels them, groups them into multi-packs, applies outer wrappers and overprints key data such as production date, use-by date, storage, handling and usage instructions, etc.

“Capping the bottles is a critical part of the process,” explained Dean Harper of the company. “Our line can work with two sizes of cap and each one must be tightened to just the right level of torque to within pretty tight tolerances.” A cap that is too loose may lead to spillage, which is usually very expensive, during transit or handling. A cap that is fitted too tightly may cause upset to the patient or medical staff, who are both likely to feel stressed if smooth medical procedures are upset. Equally, forcing open an overly tight cap could result in spillage.

“Our packaging line has four capping stations and each one is fitted with a TorqSense transducer,” explained Harper. “These work in conjunction with a computer to ensure the correct level of tightness and record the data for traceability records.” 
  
TorqSense is unlike any other sensor in that it does not rely on delicate slip rings to transmit torque readings. It does this wirelessly using radio signals transmitted from a pick-up located near to, but not actually contacting the rotating drive shaft of the capping mechanism.    

“The capping process is essentially simple,” continue Harper, “but you have to allow for a fast cycle time and the need to guarantee torque while ensuring total sterility.”

TorqSense met the design criteria of robustness, simple high speed operation and non-contact for sterility.
Mark Ingham of Sensor Technology noted: “We just needed to work out mounting arrangements. We supplied the sensor with our standard TorqView software which both displays readings in real-time and archives them should analysis or track and trace be an application requirement. 

Being wireless, TorqSense does not need to physically contact the bottle caps or shaft of the torque head it is monitoring. Instead, sensing is achieved through a radio frequency link using Surface Acoustic Wave (SAW) sensors. A shaft twists very slightly when it rotates, the amount of deformation being proportional to the torque. TorqSense measures the deformation so that it can calculate torque. To do this two tiny piezoelectric combs (SAW sensors) are glued to the surface of the shaft at right angles to one another; shaft deformation will expand one comb and compress the other. A radio frequency signal emitted by the TorqSense is reflected back by the combs, with its frequency changed in proportion to the combs' deformation.  

 







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