RU2661656C1 - Spacesuit for mars landing - Google Patents

Abstract

FIELD: astronautics.

SUBSTANCE: invention relates to spacesuits for landing on Mars and can be used for their ground testing. In the method, the suit is equipped with a means to reduce the effort of the leg muscles in conditions of gravity after a long flight under conditions of weightlessness. Said means is made in the form of a pair of propellers at the legs of the spacesuit, creating vertical traction with alternating repulsion of the feet from a solid surface.

EFFECT: technical result consists in facilitating the physiological adaptation of a man on Mars after a long flight under conditions of weightlessness.

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Description

The invention relates to the field of space technology and space technology and can be used in the manufacture of spacesuits for landing man on Mars, as well as for their ground experimental testing.

Known Martian spacesuit designed for use in Martian conditions. The Martian spacesuit is equipped with a means for perceiving the weight of the spacesuit and increasing its stability in an upright position / EP 2511181 A1; B64G 6/00, B63C 11/10; 10/17/2012 /.

The specified well-known solution does not take into account that before landing on Mars, a person will have a long flight in zero gravity, during which physiological changes occur in a person, including partial atrophy of the muscles of the legs. A tool for perceiving the weight of the spacesuit and increasing its stability in an upright position increases the load on the person’s legs due to the weight of the specified tool, which makes it difficult for the person to move and requires an increase in the muscular efforts of the legs. In conditions of partial atrophy of the muscles of the legs, this impedes the physiological adaptation of man on Mars.

The closest known technical solution to the claimed invention is a planetary spacesuit designed for use in conditions of gravity after a long flight in zero gravity. An astronaut, after a geo-orbital flight for 4-6 months and landing on Earth, is put on a planetary spacesuit under standard overpressure, while the weight of the cosmonaut-space suit system is 0.38 of the weight of this system on Earth / RU 2529404 C1; A61B 10/00; 04/03/2013; 09/27/2014 /.

Reducing the weight of the “astronaut-spacesuit” system allows predicting the performance of the astronaut who made an interplanetary flight, but may not be sufficient for full physiological adaptation when moving the astronaut on the surface of Mars due to the tedious contraction of the leg muscles, which repels the feet from the hard surface, which leads to fast fatigue when walking astronaut.

The objective of the invention is to facilitate the physiological adaptation of man on Mars after a long flight in zero gravity by reducing the efforts of the leg muscles.

This problem is solved due to the fact that the Martian spacesuit, designed for use in gravity after a long flight in zero gravity, is equipped with a means to reduce the efforts of the leg muscles, performing in the form of a pair of propellers at the legs of the spacesuit, creating vertical traction with alternate repulsion of the feet from hard surface.

The invention is characterized by the following significant distinguishing feature: the supply of a Martian spacesuit with a means to reduce the efforts of the leg muscles, made in the form of a pair of propellers at the legs of the spacesuit, creating vertical traction when alternately pushing the feet off a hard surface.

The indicated significant distinguishing feature makes it possible to facilitate the physiological adaptation of man on Mars after a long flight in zero gravity by reducing the efforts of the leg muscles.

Due to the presence of an atmosphere on Mars, a propeller with a vertical axis of rotation creates a vertical thrust that reduces the muscular efforts of the legs while alternately pushing the feet off a solid surface, necessary to move around the planet.

The propeller is driven by an engine, for example, with an electric drive and can be made of two- or multi-blade, in the form of a coaxial propeller, with variable or unchanged geometry of the blades placed in the ring or free.

The invention is carried out using known methods and means.

Thus, the supply of the Martian spacesuit with a means to reduce the efforts of the leg muscles, made in the form of a pair of propellers at the legs of the spacesuit, creating vertical traction by alternately pushing the feet off a hard surface, due to the vertical traction created by each propeller, which reduces muscle tremors of the legs, allows you to reduce the astronaut’s fatigue during walking on the Martian surface and thereby facilitate the physiological adaptation of man on Mars after a long flight to loviyah weightless by reducing the effort of the leg muscles.

Claims (1)

A Martian spacesuit designed for use under gravity after a long flight in zero gravity, characterized in that it is equipped with a means to reduce the efforts of the leg muscles, made in the form of a pair of propellers at the legs of the spacesuit, creating vertical traction when alternately pushing the feet off a hard surface .