Tokyo Manual labor is becoming more and more difficult for Japan’s aging farmers, prompting a Tokyo professor to devise a high-tech solution: mechanize the bodies of the farmers themselves.
Prof. Shigeki Toyama of Tokyo University of Agriculture and Technology’s Graduate School of Engineering is close to perfecting a robot suit that could considerably reduce the physical burden of farmwork on elderly farmers.
People aged 65 and older are a key pillar of the agricultural work force, accounting for about 60 percent of the agricultural population in Japan. Development of the robot suit may come as welcome news to such elderly farmers.
While agricultural machines such as tractors and rice planters have reduced farmers’ physical burdens, many kinds of work still depend on manual labor, such as harvesting fruits and vegetables or pruning the branches of fruit-bearing trees.
For elderly farmers, it is difficult to work in a kneeling position for hours on end or to lift heavy bundles of crops. Many suffer chronic pain in their lower backs, knees and elbows.
During a conference at his university, Toyama heard of the hardships in the nation’s agricultural sector from Prof. Isao Ogiwara, a horticultural researcher. Toyama subsequently began developing the robot suits for farmers, which he named “Power Assist.”
Toyama, who had studied robot suits for nursing care workers, wished to develop robot suits for elderly farmers.
The robot suit can be easily worn with straps that fasten it to the user’s body. Four ultrasonic wave motors, which generate electric power from ultrasonic vibrations, are situated at the knees and both sides of the lower back.
Users can set the arms of the suit to a number of positions.
With the robot suit, work such as harvesting grapes, which requires farmers to keep their arms raised, will be less physically difficult.
When users must work in kneeling or crouched positions, they feel as if they are sitting on a chair as the motors support their bodies.
The professors said that pulling a daikon radish out of the ground usually requires muscle power equivalent to that needed to lift a 66-pound object, but using the robot suit reduces the figure to less than half.
A robot suit weighs about 39.6 pounds. The professors aim to reduce the weight to about 13.2 pounds by using lighter ultrasonic wave motors. They hope to begin selling the suits two years from now for about $5,830 each.