Don Pettit writes about the Glenn harness on the space station’s treadmill that simulates backpack loads on the body in space in his latest blog entry.
http://go.nasa.gov/LwGjd4
Carrying the Load
Humans make rather poor beasts of burden. Fortunately, nowadays heavy loads are pretty much relegated to machines, saving our spines for recreational activities like donning backpacks and heading into the wilderness. Speaking of which, the suspension system
for backpacks—the part that connects the load to our bodies through a series of straps—is relevant to our attempts to keep our muscles and bones from degenerating in space.
To maintain our muscles, bones, and cardiovascular systems, we exercise about two and a half hours each day. These exercises are divided between resistance
(“weightlifting”
in weightlessness), cycling, and treadmill routines. To run on the treadmill in zero-g requires that your feet stay in contact with the belt, so we wear a backpack harness with adjustable spring-loaded straps. The loading is important. To reap
the full health benefit, the harness is loaded to near (Earth) body weight, which for me is 80 kilograms (176 pounds). It sounds easy, but the technical details of creating a harness add significant complexity to the process of exercise in space. This is another
example in spaceflight hardware design where the answers are not in the back of the book.
On Earth, a backpack harness is designed to distribute the load between the shoulders and hips, with the balance between the two usually adjustable. And no one really wants to carry a backpack weighing more than about 80 pounds. I have a minimalist philosophy
when it comes to backpacking, and seldom carry more than about 45 pounds.
Now enter the space requirement to carry a load close to your body weight. No backpack I am aware of is designed to do this. And how does one best distribute the load between hips and shoulders? Our bodies are not meant to carry our own weight on our shoulders,
so the load has to be distributed more widely. But since the spine has to be loaded, too, the entire weight cannot be placed on the hips. Your hips also have to be free to swing with your stride.
When backpacking with heavy loads on Earth, we seldom work near maximum cardiovascular levels. Backpacking is slow and easy; we take the time to smell the roses along the wilderness trail. In space, we run on a treadmill at 95 percent of our maximum heart
rate. At this level of exertion, your chest is expanding and contracting to its full extent while your heart feels like it is going to jump out of your chest. Normal backpacks are not designed to accommodate the required chest expansion at maximum exertion.
These seemingly small engineering details complicate the backpack design enough that we can’t just use off-the-shelf equipment. The treadmill harness we use on Space Station was engineered at NASA Glenn Research Center, and so is called the Glenn harness.
The engineering was tested on Earth by taking a treadmill and mounting it vertically on a wall. Then the test subject (I was one of them) is suspended horizontally above the floor with a series of bungees, like in a magician’s floating lady act. Now the harness
can be tested at near-body-weight loads in normal gravity. It’s often necessary to go to such lengths to design and test spaceflight hardware. In that way, a large visionary technology program like Space Station drives numerous small advances that never would
have been contemplated (or funded) without the greater driving force.
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