The spread of the Covid-19 virus can be transmitted through the nose and mouth of
an infected person who emits particles when they talk, cough, or breathe hard.
These virus particles can be large (droplets) or very small (aerosols). The
pregnancy rate in Indonesia is quite high with 2.8 for every Indonesian woman.
Women who exposed to the Covid-19 virus can cause premature pregnancies in
babies. The group of pregnant women is also a group that is vulnerable to exposure
to the Covid-19 virus. In Indonesia itself, especially in big cities, many people still
choose a hospital or a puskesmas as a place of delivery. Meanwhile, the hospital
occupancy rate in big cities is around 70-80%. Not a few people entrust childbirth
to be carried out at the nearest health center, but the equipment at the puskesmas
is not as complete as the equipment in the hospital, such as the availability of
infectious rooms. Therefore, a solution is needed to reduce exposure to the Covid-
19 virus, both from other people to pregnant women, and vice versa. The Delivery
Bed Chamber is a product in the form of a device that isolates the room so that the
possibility of exposure to Covid-19 virus droplets can be reduced. To get a good
Delivery Bed Chamber product design concept, a systematic and directed approach
is needed. By using the French's Design Process method and the help of the Simple
Additive Weighting Method, the Delivery Bed Chamber design is obtained that is
in accordance with customer needs both technically and economically. For the
measurement of product ergonomics factors, RULA (Rapid Upper Limb
Assessment) calculations are used using CATIAV5R21 which simulates movements
that may occur in the use of the Delivery Bed Chamber, RULA values are obtained
with levels 2-4. With the results of the RULA value obtained, the final design
concept can be selected both in terms of ergonomics.