NASA’s Rasur (Regulatory Advanced Surface System Operations Robot) has recently been created to manufacture technology for the Kennedy Space Center’s granular mechanics and regulated operations labot excavator. On May 27, NASA Mechanical Engineer Ben Bordes observed the anti -counterterizing bucket drums of the Risor through a clay simulatory and developed a three -foot barram. The trial focuses on the excavator drums of Rasur and directly notified the development of NASA’s next generation moon mining excavator, in which the use of domestic resource -use pilot excavates (IPEX)
Dressed drums and regalies of the Risor
According to NASA’s official website, each arm of the source has a bucket drum that rotates in the opposite direction of his partner. Engineers noted that this anti -circulation also gives extra traction to the robe in weak gravity. In the Kennedy Lab Test, they anchored the robots in a fake and effectively digging clay. With this traction, the user can dig, load, put and throw the loose clay.
Then the accumulated regal can be processed in hydrogen, oxygen and water, the main resources to maintain astronauts on the moon. Recently. In the test, the Rasur showed the lunar clay imitation effectively, while its drum design showed how future machines could operate in the moon’s low gravity.
Side of the moon with the iPx excavator
NASA engineers say the jailer test was primarily to check the bucket drum design, which was developed for the IPEX, a pilot of the use of Instu resources. Risor acts as a prototype for IPEX, which will be much more independent and capable.
The IPEX is an engineer as a joint bulldozer and a dump truck robot that can carry large quantities of lunar soil. Ultimately, the IPEX will dig the Regulathe and put it in the processing units on the site to extract oxygen, water and fuel from the soil of the moon. The use of these local resources is the basis of NASA’s strategy to support the permanent human presence on the moon and Mars.
