PERANCANGAN LENGAN PROSTETIK AKTIF UNTUK TUNADAKSA PADA BAWAH SIKU (AMPUTASI TRANSRADIAL)
In 2010, people with physical disabilities in Indonesia reached 1,852,866 people. One of the categories of it is the amputation below the elbow and bone in the forearm (transradial amputation). Patients with physical disabilities can be helped with prosthetic aids, but prosthetic aids that alre...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/51472 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In 2010, people with physical disabilities in Indonesia reached 1,852,866 people.
One of the categories of it is the amputation below the elbow and bone in the
forearm (transradial amputation). Patients with physical disabilities can be helped
with prosthetic aids, but prosthetic aids that already exist in Indonesia do not have
biomechanical functions, are expensive, and are uncomfortable when used for a
long time. Based on these problems, research on the design of active prosthetic arms
for the physically challenged under the elbow to provide a functional, comfortable,
and affordable prosthetic arm design. The study was conducted using Lead User
Analysis to identify user needs and continued with the Pahl and Beitz design
method which divided the design into 4 phases, namely planning and clarifying the
task, designing the product concept, designing the product form, and detailing the
design. The results of this study are product specifications, product concepts, initial
layouts, final layouts, and detailed product design documents with prosthetic
fingers that can move and do not require a lot of energy to move them, in accordance
with the purpose of this study, namely to produce an active prosthetic arm design
affordable and can hold a glass / bottle filled with water. In addition, the target price
of the product is also below 2.5 million in accordance with the amount borne by
BPJS, durable because it uses materials that are tailored to the needs of users so as
to produce prosthetic sleeve products that are durable and hardiness, and is driven
using energy from body movements that makes the design of active prosthetic arms
in this study different from products existing prosthetic arms/circulating in
Indonesia. |
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