This i-Drive Bluetooth Tri-Array, Head Support features, 3 proximity sensors, non-proportional, with egg switch for reset mode change and i-Drive Smart Box.
This product is not available in your selected combination
Product Code: {{stockCode}}
Please note the selected product option is not available for trial.
i-Drive Bluetooth Pro Series Head Support with 3-Proximity Sensors, Occipital Pad, Swing Away Hardware for Left and Right Side, 2 Spot Pads, Egg Switch for reset mode change and the i-Drive Smart Box.
There are 3 distinct styles of powerchair, all of which are categorised by the location of the wheels driving them. They are:
Â
Each style of powerchair offers a very different driving sensation, and different advantages/disadvantages to match in relation to the space that it requires to manoeuvre.
Over and above the range of bases with different wheel positions, there is also a wide range of seating options available on powerchairs, to cover a wide range of potential needs. These range from simple slung canvas upholstery to complex motorised seating units, allowing independent positioning of one's body while seated in the chair. For example a powered reclining action, tilt of the whole seat back and elevation of the seat to transfer or get in to cupboards.
As there is no one-size-fits-all solution, powerchairs should be viewed on a case-by-case basis. If you have any further questions regarding a powerchair, or would like to look at the powerchairs available through Allied Medical click here.
Thanks to huge developments in the electronics arena, powerchairs are now more accessible than they have ever been, and the methods of controlling powerchairs expand from year-to-year. The standard method of control is through a joystick, working on a pushing motion, where the joystick is pushed in the desired direction of movement.
Â
If joystick operation is not a feasible means of control, we are able to harness almost any location on the body, even where movement is very minimal, to offer access to, and total control of, a powerchair, any seating functions the powerchair offers, and access to control of the surrounding environment.
We have people using powerchairs everywhere from mountain bike tracks to farmland, supermarket aisles to footpaths, and of course everywhere in an around the home.
Â
Powerchairs are designed to cope with covering a wide range of terrain, with different models being more appropriate to traversing different surfaces and conditions.
You can assume that any powerchair will be able to cover the majority of surfaces found within your home and community, be it carpet, concrete or grass etc. Obviously, more challenging surfaces i.e. mud; require more competent chairs, of which an appropriate style chair is able to be supplied.
For outdoor environments, most powerchairs will manage a trip down the footpath to the local dairy, but for metal roads and wet sports fields, powerchairs with bigger tyres, motors, batteries and castors are required. These powerchairs tend to be wider and may not fit all home environments.
A powerchair can be used as often as you like as it is designed to be there for your assistance as little or much as you need. Charging of the batteries (view the separate FAQ on this page) is advisable to make sure you don’t get stuck on your trip out and about.
The powerchairs are supplied with batteries matched to the performance required from the chair, and as such the batteries will allow the chair to be used for the duration of the day before needing to be recharged.
Hills, user weight and tyre selection are all elements that impact on how far you can travel on a single charge. In terms of the life of the batteries, one should expect upwards of 12 months from a new set of batteries, depending on their usage and the regularity of their recharging.
A powerchair is supplied with a specific battery charger designed to plug into a socket, usually located on the powerchair hand controller. This charger is then plugged into a regular 3-pin 230V wall socket. The amount of time required to charge the chair will vary, but it is recommended that the chair be charged nightly to ensure a full charge each time use of the chair is required.
We, along with the manufacturers of many powerchairs, always recommend that it is safest for anyone using a mobility device to transfer to a vehicle seat and use the seatbelt system or child safety seat that meets the New Zealand standards. Â
Â
If it is not possible to do this, then it is important for the wheelchair / powerchair to be secured to the vehicle facing forward and to use crash tested seatbelts (also attached to the vehicle) for the wheelchair seated rider.
Â
Wheelchairs and powerchairs that have been designed and tested for use as a seat in motor vehicles are the best option. These wheelchairs comply with ANSI/RESNA WC19 which is a voluntary standard developed by safety and rehabilitation experts. Information on this testing is included in manuals that come with each product and stickers like this one are also visible the wheelchair or powerchair itself if it has been tested to this standard.
Â
A wheelchair or powerchair which has been tested to this standard has four, crash tested securement points where tie-down straps and hooks can easily be attached. These points are clearly marked with a hook symbol.
Â
It is important that the Wheelchair Tiedown and Occupant Restraint Systems (WTORS) used within the vehicle is used to secure the wheelchair and provide the occupant with a properly fitting three point lap and shoulder belt. Postural support belts that have been attached to the wheelchair / powerchair are not strong enough to withstand crash forces and are not usually positioned correctly to protect the person safely in an accident.
Â
This must also be crash tested and labelled that it complies with the ANSI/RESNA WC18. This system used four tie down straps or hooks that attach to the wheelchair/powerchair at the securement points marked. The straps need to be tightened to remove any slack.
Â
There are other methods of wheelchair and powerchair securement that can be used, such as a docking system. These are attached to both the mobility device and the vehicle. More information on these should be sought from the product supplier and the wheelchair/powerchair supplier as different systems have been tested with different products.
Â
Other points to note:
Â
Please remember that wheelchairs and powerchairs have been designed for mobility, not as seats for vehicles.
Â
All airlines have their own specific regulations they adhere to and we recommend that you contact them directly for their detailed guidelines, however the following refers to general information that you may need to consider.
Â
As a general rule, airlines will require all types of wheelchairs to be checked luggage. All powerchairs must be stowed as check-in luggage so it is important to minimise the possibility of damage during transit. We suggest you remove the seat cushions and any other parts that could easily become separated from the chair.
Â
Also, it is probably a good idea to travel with some basic maintenance tools for your powerchair.
Â
It is important to supply your chosen airline with as much information as possible when you make your flight booking. You may need to supply them with some or all of the following information:
Â
Â
For best practise, always contact your chosen airlines for their specific regulations before getting to the airport.
Â
Download our Powerchair Specifications for Flights guide here.
Â
Read more about Travelling with a Powerchair here.
Charging is the most essential maintenance task required of any powerchair, as without this occurring on an ongoing basis the chair will lack the power to perform at its optimum. Correct tyre inflation is also an important maintenance task, to ensure that the chair is operating in the most efficient manner without having increased resistance to battle with. This task can be carried out anywhere with access to compressed air e.g. a petrol station, bike shop etc.
Â
Beyond that, it is important that all bearings and points requiring lubrication are checked and replenished on a frequent basis.
Â
The seating component of a powerchair is unlikely to have any parts requiring ongoing maintenance, though if this were the case, it would be expected that advice on these tasks would be provided by the therapist/supplier at the time of delivery of such an item.
All powerchairs come with user manual. These outline specific requirements for maintenance and servicing and are generally listed in a weekly, monthly and annual servicing format.
A powerchair’s weight capacity includes the combined weight of the user and any accessories mounted to the powerchair. This does not include standard components added to the powerchair base such as seating, backs, cushions and hand controllers, however, does include additional accessories such as cup holders, portable ventilators, CPAP machine’s and holders etc. Please also note, anything temporarily added to your powerchair such as shopping a user may carry also adds to the weight limit. Activities such as weight lifting is not recommended in a powerchair unless the load of the weights does not push the limit over the total capacity.
There are a number of wheelchair technicians located throughout New Zealand, some operating independently, and some operating as a function of a bike shop or the like. They cover all of the major centres, but the majority of maintenance tasks on a powerchair can easily be performed by a range of people from bike mechanics to auto electricians and mechanics. Click here to find one nearest to you.
It is expected that a powerchair would offer a life in the region of 5 years, where it is being used fairly frequently, but this is greatly dependent on the conditions it is subjected to, and the maintenance that is carried out on the powerchair over its life. On the flip side, it is not uncommon for a powerchair to be continuing active duty well beyond 10 years if well maintained and stored in an appropriate environment.
You can use your powerchair in the rain, however intense or prolonged exposure of your powerchair to rain (or continued dampness) can potentially cause electronic or mechanical malfunctions, as moisture can cause rust and corrosion to various parts. Damage like this would be considered wear & tear.
Â
As part of your powerchair's maintenance you should have it examined periodically for signs of rust from water exposure or any other form of fluid exposure. Damaged components should be replaced or treated immediately.
Â
If your powerchair has come into contact with water you should do the following steps:
Â