The new Queen fantasy musical, ‘We will rock you’ has launched in London’s West End to rave critical reviews for the music, primarily, of course, but also for the imaginative and technically complex stage set.
The show opened at The Dominion Theatre on 14 May, which gave set designers Mark Fisher and Willie Williams a tight production schedule in the eight-week lead up to the innovative production – and even less time for scenery fabrication contractor Brilliant Stages and automation supplier Entertainment Innovations of Croydon.
Four separate projects were involved. The movement, using a ‘Serapid’ push-pull chain, of the ‘High-School colonnade’ up and down the stage, the chain-driven movement of the set of the Tottenham Court Road tube station, control of four truck-driven video screens and, fourthly, the control of four ‘flown’ video screens.
“We had to work to a very tight time schedule,” says Andy Cave of
Entertainment Innovations, the automation contractor chosen for the task, “and
yet retain the ability to make changes right up to opening night. So we chose
Control Techniques Unidrives throughout, because of their flexibility in use
and their ease of programming.”
The Serapid chain, developed
for the French nuclear industry, is a special design of chain with linear stiffness
so that it can be pushed as well as pulled.
This is the duty of a Control Techniques 11kW Unidrive ‘universal’
AC drive, running in servo mode and controlling a 190-frame Unimotor. Using
a plug-in co-processor, the movements are programmed into the drive itself using
a modified version of the Control Techniques LiPoS (Linear Positioning) software.
Actions are initiated by a signal from a CTIU low-cost, high specification operator
interface, via a RS485 serial communication with the drive itself.
The set for the Tottenham Court Road Tube Station is moved into position with a more conventional chain and sprocket system, running in a slot on the stage. The chain passes up and over a driven sprocket on the set itself. A custom-made controller communicates with the digital inputs on the UD75 on-board co-processor on the 7.5kW Unidrive.
The four video trucks, with several thousands worth of high-intensity video screens, are each independently controlled by a stage-hand using a simple, multi-position purpose-built hand control. Each truck has a 2.2 kW Unidrive controlling the height of the screen via a Unimotor and Alpha LP120 gearhead. An onboard UD75 co-processor provides the programming, using commands from a simple hand held controller to recall pre-programmed positions stored in the drive.
A further four high intensity LED screens, each about 1.5 metres wide by 2.3 metres high, are supported by trolleys, driven by 0.75kW Unidrives on a rack and pinion system up and down an ‘I’ beam bolted to the underside of a truss hung above the stage. Each screen weighs around 300 kg and is lifted by a winch powered by a networked 7.5 kW Unidrive system. Producing very bright and intense colours and video images, the screens can be moved with great accuracy to give a continuous screen or four separate screens at different heights. The video trucks can also be manoeuvred into position beneath the flown video screens to form one big eight-section screen across the stage.
Cues are stored in the drives and recalled using a Control Techniques operator interface via Control Techniques’ high-speed network CT-Net, using LiPoS linear positioning software within each drive’s co-processor unit. A special version of LiPoS was produced allowing up to 64 separate positions to be stored, along with individual move speeds and ramps.
Digital lock between the drives proved to be unnecessary because of the accuracy of the LiPoS system, simplifying the development time of the commissioning and trials to just a few days. The drives system is mounted into a space-saving 19” rack-mount system, for ease of access.
The strength of LiPoS is in its flexibility, that allows preset or serial communication controlled moves, in discrete, triggered or automatic sequences, as well as continuous following, giving the client a wide variety of control options. LiPoS offers up to 100 pre-loadable programmable move profiles, independent profile acceleration, deceleration, maximum travel speed and post-move dwell. Linear moves are programmed in user units. Move lengths up to 32 metres and resolutions down to 1 micron can be set up, with variable target window accuracy and settling time. It is simple to set up torque and force limits, alarms and outputs can be set both for overall limits and to control individual moves. The program is packed with features – including travel limits and absolute positioning – with all of the programming being set up either from the drive display, or, using Control Techniques’ SyPT ‘toolkit’ from a PC.
“The LiPoS program is flexible enough to allow artistic changes to be made in just a couple of minutes without complex programming,” comments Andy Cave, “which proved to be very welcome in the run up to the show launch, with changes being made almost every day.”
The Unidrive range of AC drives spans capacities from 0.75 kW to 1 MW and five
operating modes including servo mode. With plug-in modules, the drive can be
tailor made to fit a vast range of different applications, with most of the
industry-standard network protocols as well as Control Techniques’ own
high-speed network, CT-Net, used in this application.
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For further information contact: Geraint Evans, Press Officer, Control Techniques
Ltd, Drive Centre Marketing, St Giles Technology Park, Newtown, Powys SY16 3AJ.
Tel: 01686 612900. Fax: 01686 612999.
For the best in drives information visit our website: www.controltechniques.com