nical Solution of Stoke-on-Trent began looking at the issue and came up with several initiatives that addressed different aspects of the situation. One idea involved technology transfer from other fields of engineering. Technical Director Andrew Stephen explains:
“Washing machines energy is delivered through their main drive motor and we reckoned that there may be some savings using sophisticated motor control.”
“Front loaders are – of course – horizontal axis, so the load, i.e. the wet laundry, is being lifted on one side of the axis and falling on the other side. We wondered if this offered possibilities for regenerative energy recovery, a technique we have used in many industrial projects.”
Stephen knew that considerable research would be required, so built a test rig with which he could subject washing machine system to extensive tests using an industry standard inverter to simulate the various washing cycles etc. A critical element of the programme was the ability to make continuous accurate torque measurements, and for this he used TorqSense transducer from Sensor Technology in Bicester.
The initial attraction to TorqSense was that it is easy to install and use because it does not use fiddly slip rings to contact the motor shaft, but rather a non-contact radio frequency link.
“We have to glue a couple of tiny piezoelectric combs onto each test shaft, but that takes a matter of seconds. The time saving over a big project is measurable and significant, but far more importantly is the avoidance of frustration. With slip rings test engineers can end up tearing their hair out.”
But more importantly, TorqSense’s non-contact operation did not add an extra drag load to the results, nor affect the dynamic changes in torque as the load went over ‘top dead centre’. The former is a constant error, which Stephens could have calculated out, but the latter could have made it impossible to collect the highly accurate, highly time-resolved torque data necessary for success.
By measuring the torque change he could define the exact moment when to switch the drive from power to regeneration and make the most of the potential energy released by the falling load. Given that the motor could be rotating at up to 1500rpm, this called for very accurate data collection and equally responsive control programmes.
For here he could select the best flux curve for each motor and each washing cycle tested.
“Our findings were that this technique is definitely worth building into next generation washing machines, and many of the leading manufacturers will be doing this,” says Stephen. “As you would expect savings varied between the different motors and cycles. With a half load of lightweight nylon items, the saving is negligible, but with a full load of heavy cottons plus a drum load of water it’s a different matter, with 15 percent energy reduction. This would actually take a few quid of the average household electricity bill, and help manufacturers achieve Class 1 Eco rating.”
“But far more importantly multiplying it up through the whole population and the annual carbon reductions are very meaningful.”