Paralympic design: discus throwing frame

Paralympic design: discus throwing frame by Roger Thorn

Discus-thrower Derek Derenalagi competes using a custom frame that’s specially designed to meet strict rules for Paralympic athletics, which state that any equipment can be used so long as he can get set up and ready to compete within 60 seconds.

Paralympic design: discus throwing frame by Roger Thorn

“Derek wanted to use his prosthetic legs while competing but didn’t know how or where to place them with his previous equipment” says Roger Thorn, an engineer and volunteer for charity Remap that makes custom-built equipment for people with disabilities.

Paralympic design: discus throwing frame by Roger Thorn

After a consultation with Derenalagi and his coach at their training centre, Thorn developed the discus-throwing frame to suit the athlete’s exact requirements.

Paralympic design: discus throwing frame by Roger Thorn

Replacing a heavy steel stool that restricted movement and provided little comfort, the new frame allows Derenalagi to make adjustments in height, seat pitch and shoe positioning to find the most comfortable and effective throwing position.

Paralympic design: discus throwing frame by Roger Thorn

The new frame is made from lightweight box aluminium designed to withstand the force created during the throw and is lightweight so it can be transported to competition venues. It is secured to the ground with four adjustable straps and Derenalagi is strapped to it with two seat belts.

Paralympic design: discus throwing frame by Roger Thorn

Derenalagi threw 39.37 metres to come 11th in the final of the F57/58 discus event, held at the Olympic Stadium on 31 August.

Paralympic design: discus throwing frame by Roger Thorn

See custom equipment for “blade runner” Oscar Pistorius we’ve featured here and all our stories about design for Paralympic athletes here.

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Paralympic design: 3D-printed seats for wheelchair basketball

Paralympic design: 3D printed seats for wheelchair basketball

The first tailor-made 3D printed seats for wheelchair basketball are being used by competitors at the London 2012 Paralympics.

Paralympic design: 3D printed seats for wheelchair basketball

Developed by Loughborough University’s Sports Technology Institute alongside UK Sport, the seats are individually moulded each player’s body.

Paralympic design: 3D printed seats for wheelchair basketball

The customised seats consist of foam interiors and plastic shells, and are a kilogram lighter than conventional wheelchair basketball seats.

Paralympic design: 3D printed seats for wheelchair basketball

Participating athletes had 3D body scans to capture their movements and positions in their existing wheelchairs, then CAD technology was used to shape the outer layer of the seat to suit each individual player and help position the seat onto the frame. The seats were then built up layer by layer using selective laser sintering to accurately replicate the computer models. Four men and four women will use the seats at this year’s Paralympic Games.

The wheelchair basketball finals take place on Friday 7 and Saturday 8 September at the Basketball Arena and the North Greenwich Arena.

We’ve also featured wheelchairs designed to withstand heavy impacts for rugby and to be fast and lightweight for racingSee all our stories about design for Paralympic athletes »

Here is some more information from the Engineering and Physical Sciences Research Council:


Innovative tailor-made seats will be used for the first time by Paralympics GB for the wheelchair basketball events this summer.

Using cutting-edge research the seats are individually moulded for each player to provide the best possible support. They will help the athletes to improve their speed, acceleration and manoeuvrability around the court.

The seats have been developed with UK Sport funding at Loughborough University’s Sports Technology Institute, which is supported by the Engineering and Physical Sciences Research Council (EPSRC).

The new seats are revolutionary because they take the individual’s size, shape and particular disability into account. For example, a player with a spinal cord injury will have a seat that provides additional support around their lower back.

Harnessing a range of cutting-edge design and manufacturing techniques and developed in close consultation with the British men’s and women’s wheelchair basketball teams, these customised seats consist of a foam interior and a plastic shell. They are simply clamped onto the current wheelchair design in which the frames are already made to measure for the players.

You can find out more about the research from the team involved in an audio slide show.

“Within any wheelchair basketball team, both the nature and the extent of the players’ physical abilities vary considerably,” says Dr Gavin Williams, who has led the project.

“Traditionally players have had a very limited choice of seat designs and a tailor-made approach was not possible. The new seats, which include part of the back rest, are made specifically to accommodate each individual’s needs”.

Team members initially underwent 3D scans to capture their bodies’ biomechanical movements and their positions in their existing wheelchairs.

The seats are made up using cutting-edge design and manufacturing techniques
A moulding bag containing small polystyrene balls (similar to a bean bag style seat), was used to capture the shape of the player when seated. The seat was then made up by hand.

Computer-aided design (CAD) capabilities were then used to refine the shape of the outer layer of the seat to suit each individual player and help position the seat onto the frame.

Using this prototype the next stage involved quickly producing copies of each individual seat so that they could be further tested and amended if necessary following feedback. For this speedy production an additive manufacturing technique called selective laser sintering (otherwise known as 3D printing) was used to build up each seat layer by layer. This resulted in a final product that exactly replicated what was on the computer screen.

This is the first time anywhere in the world that these existing techniques have been harnessed together to produce a sports wheelchair seat.

Improvements in speed, acceleration and manoeuvrability for the players were achieved.

“The sprint tests, for instance, showed that the new seats enabled the athletes to shave tenths of a second off their best times,” says Dr Williams. “That represents a huge improvement in a player’s ability to reach the ball and move around the court.

The seats save a kilo of weight with the overall chair being two kilos lighter than the chairs that were used in Beijing because of other modifications to the chair itself.

“The advances we’ve made also have the potential to feed into improved seat design for wheelchair users in general,” says Dr Williams. “In particular, bespoke seats could reduce the problems with pressure sores currently experienced by a great number of wheelchair users.”

In total 8 players, four men and four women will be using the new seats at the Paralympics this year.

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Paralympic design: adaptive sailing equipment

Sailors at the London 2012 Paralympics are using boats fitted out with custom seats, handles and pedal controls.

Paralympic design: adaptive sailing equipment

They compete in mixed events in single-, two-, or three-person boats, which have to be adapted to the needs of each crew member.

Paralympic design: adaptive sailing equipment

Sonar boats for crews of three are made more accessible with transfer benches and bars that help sailors to move around the large boats.

Paralympic design: adaptive sailing equipment

A hand bike pedal system on a swiveling seat can be installed for a helmsman with quadriplegia.

Paralympic design: adaptive sailing equipment

Modifications to the Skud18 two-person boats include custom-moulded bucket seats with electrical controls for tilting and ski-pole steering handles.

Paralympic design: adaptive sailing equipment

Individual 2.4mR boats are designed specifically for each sailor.

Paralympic design: adaptive sailing equipment

The finals of the Paralympic sailing events take place in Weymouth on Thursday 6th September.

Paralympic design: adaptive sailing equipment

Images are by the International Association for Disabled Sailing.

Paralympic design: adaptive sailing equipment

See all our stories about design for Paralympic athletes »

Paralympic design: adaptive sailing equipment

See all our stories about London 2012 Olympics »

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Paralympic design: competitive handcycles

Athletes without the use of their lower body use cycles propelled by hand pedals in the road cycling events at the London 2012 Paralympics.

Paralympic design: competitive handcycles

The tricycles sit low to the ground with one wheel at the front and two at the back to aid stability, and possible seating positions include sitting, kneeling or lying.

Paralympic design: competitive handcycles

Custom knee/seat buckets are included in the Kneeler models used by the most able-bodied athletes, while Para Kneeler cycles designed for athletes with paraplegia have custom cages and adjustable kneel upholstery.

Paralympic design: competitive handcycles

The pictured handcycles by Top End have frames built from reinforced aluminium and wheels made of carbon fibre.

Road cycling at the London 2012 Paralympics takes place at Brands Hatch, with time trials on Wednesday 5 September and races on Friday 7 September.

See all our stories about design for Paralympic athletes »

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Paralympic design: wheelchair rugby

Chairs used in the wheelchair rugby event at the London 2012 Paralympics are designed to withstand heavy impacts and be easily manoeuvrable.

Paralympic design: wheelchair rugby

Above and top images by Channel 4

Also known as ‘murderball’, the full-contact sport requires equipment that is incredibly durable and can endure constant bombardment, as well as being light, fast and agile.

Paralympic design: wheelchair rugby

Above image by Channel 4

A bumper designed to help strike and hold opponents is attached to the front of the chairs.

Paralympic design: wheelchair rugby

Above image by Channel 4

Wings are positioned in front of the main wheels to make the wheelchair more difficult to stop and hold.

Paralympic design: wheelchair rugby

The wheels are covered by spoke protectors to prevent damage during collisions, and all chairs include an anti-tip device at the back.

Paralympic design: wheelchair rugby

Wheelchair rugby takes place on Wednesday 5 September in the Basketball Arena at the Olympic Park.

Paralympic design: wheelchair rugby

See all our stories about design for Paralympic athletes »

Paralympic design: wheelchair rugby

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Paralympic design: adaptive rowing equipment

Stabilising pontoons and specially designed seats are just some of the modifications that can be made to equipment used by rowers at the London 2012 Paralympics.

Paralympic design: adaptive rowing equipment

The hulls of the adaptive boats are identical to those used by able-bodied athletes, apart from the single scull that is wider.

Paralympic design: adaptive rowing equipment

Pontoons or floats may be fixed to the riggers to help athletes who can’t use the full lower body to balance the boats.

Paralympic design: adaptive rowing equipment

Seats in an adaptive single are high-backed and fixed into position to support the lower and upper back while in a double the seat is slightly lower backed to allow for trunk movement but is still fixed.

Paralympic design: adaptive rowing equipment

Rowers are restrained by velcro straps that allow for easy release in case of a capsize.

Paralympic design: adaptive rowing equipment

Athletes classified as visually impaired wear masks that cut out all light whilst on the water.

Paralympic design: adaptive rowing equipment

The Paralympic rowing finals take place at Eton Dorney on Sunday 2 September.

As part of a series of stories about Paralympic design we’ve also featured the Nike Spike Pad worn by Oscar Pistorius and racing wheelchairs used by David Weir and Shelly Wood at the games, and you can see all our stories about London 2012 here.

Here is some more information from British Rowing:


Equipment

Adaptive rowing challenges barriers to participation in the sport for individuals with learning, physical and sensory impairments, by providing opportunities supported by a range of technical and coaching resources.

Often you will find that there will be no need to fork out hundreds of pounds for new boats – it is possible to row in a normal boat with some of the following equipment and adaptions that are inexpensive and easy to use:

Boats

The hull of the adaptive boat is identical to able-bodied boats (with the exception of the single scull, which is a wider boat). In the Paralympics, all boats are standard boats, though in normal international adaptive rowing the LTA4+ is allowed to be slightly different. Stabilising pontoons (floats) may be fixed to the riggers of all the boats except the LTA4+.

Seats and straps

Seats in an adaptive double or single are different to the seats in an able-bodied boat (the seats in the LTA4+ are the same). In the single, a high-backed seat is used and fixed into position to support the lower and upper back. The rower is strapped to this seat to prevent trunk movement. In the double, the seat is slightly lower backed to allow for trunk movement but is still fixed.

Seats are also available to fit indoor rowing machines. Clamps can fix seats into a stable position and various protectors (such as gel protectors) will ensure there are no injuries caused by the fixed seats.

Gloves

To help athletes with limited hand function, gloves are available which help the athlete grip a blade or handle. These can be used in both indoor and on water rowing.

Restraints

Velcro restraints are used in racing to ensure that there is no leg or trunk movement as appropriate. These are always fixed with velcro so in the event of a capsize athletes can quickly remove the restraints. They can also be used in indoor rowing and outside racing to give increased support whilst using a seat.

Masks

To help ensure a fair and level playing field, athletes classified as visually impaired must wear a mask whilst on the water. This mask must cut out all light.

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