Share
Industrial Technology - Linked-in Industrial Technology - Twitter Industrial Technology - News Feed
Latest Issue
Diary and Events

Southern Manufacturing

Farnborough, Hants(GU14 6TQ)

20/04/2021 - 22/04/2021

Southern Manufacturing and Electronics is the most comprehensive annual industrial exhibition in the (more)

PPMA Show 2021

NEC, Birmingham(B40 1NT)

28/09/2021 - 30/09/2021

PPMA Show 2021 will be the UK’s largest ever event dedicated to state-of-the-art processing and (more)

Advanced Engineering 2021

NEC Birmingham(B40 1NT)

03/11/2021 - 04/11/2021

Join us in our 12th and most important edition to date, as we invite engineers and management from all (more)

Locking bushes supports Neuron unmanned aircraft project

Locking bushes supports Neuron unmanned aircraft project
Helping to bring Star Wars a step closer, locking bushes from ETP are playing a key role in the Neuron project to build a UCAV-demonstrator (Unmanned Combat Aerial Vehicle). Neuron is one of the most ambitious and high profile aeronautical projects in Europe this decade featuring cutting edge technology. The project is led by Dassault of France with partners in Sweden, Italy, France and Switzerland. Test flights are scheduled in 2011. The build makes use of reconfigurable fixtures that rely on the holding properties of ETP-Express locking bushes. These adaptable fixtures, known as 'hexapods', support the fuselage during assembly. As additional parts to the fuselage are built in different assembly stages, new fixtures are added or moved to new locations on the structure, thus giving maximum support and also enabling an optimal accessibility for the operators.

The six leg hexapod structure is well known in robotics and flight simulators for the ability to achieve true movement with six degrees of freedom, that is x, y and z axes plus yaw, pitch and roll. Hexapods are more commonly found with powered actuators, but a project between the University of Linkoping, ETP and SAAB sought to develop it for work holding. Here the additional advantages of high rigidity, ability to accept side loads, very precise adjustment and small footprint become relevant. On each leg is fitted an ETP-Express locking bush which allows sliding movement until tightened when it becomes rigid without backlash. Hexapod holding fixtures can be laser aligned and locked in position. When the time comes to reconfigure the fixture, the ETP bushes are simply loosened giving immediate free release of the legs.

The ETP-Express shaft locking bushes are more commonly used for connection of hubs, sprockets, cams and gears to rotating shafts without using keyways. They work by pressurisation of a cylindrical chamber that sits between thin inner and outer walls, causing them to expand and grip the hub and the shaft. Pressurisation that sets the rated performance is easily achieved by tightening a single radially-mounted screw. ETP-Express bushes have features that are ideally matched to the hexapod application. As well as torques transmitted radially, ETP-Express is equally good at transmitting the axial forces present in the hexapod. Partial tightening of the pressurisation screw achieves a light resistance force against movement which is ideal for setting the position. Once set, the full tightening torque is applied without any resulting axial movement that could disturb the set position. Loosening the single screw gives immediate and free release. In the UK the ETP-Express bush is available from Techdrives in a range for shafts of 15 to 100mm.

The Neuron project will produce an unmanned aerial vehicle to serve as a technology demonstrator with first flight expected in 2011. Its 6700 kg weight, 12.5m wingspan and Star Wars appearance is based on a high degree of build precision thanks to the reconfigurable hexapod fixtures with ETP-Express locking bushes.
 

Other News from Lenze Ltd

Lenze’s smart servo axis for motion control comes with IIoT functions

Latest news about Couplings

Additional Information
Text styles