Актуальные проблемы в машиностроении. 2016. №3

Технологическое оборудование,

оснастка и инструменты

____________________________________________________________________

233

DESIGNING OF WEIGHT POINT’S VERTICAL MOVEMENT DRIVE OF ZERO

GRAVITY SYSTEM

Cha G.O.

1, 2

,

Master’s Degree student, designer , e-mail:

Grigoriy_olegovich@mail.ru

Skokov D.V.

2

,

Head of Design Department, e-mail:

15823@mail.ru

Gleym V.R.

1

, Master’s Degree student, e-mail:

v_gleim@mail.ru

Levchuk

A.Yu

.

1

, Master’s Degree student, e-mail:

ge.911@mail.ru

Plotnikov K.P.

1

, Master’s Degree student, e-mail:

k.plotnikow@gmail.com

Skeeba

V.Yu

.

1

, Ph.D. (Engineering), Associate Professor, e-mail:

skeeba_vadim@mail.ru

1

Novosibirsk State Technical University, 20 Prospekt K. Marksa, Novosibirsk, 630073, Russian

Federation

2

Technological Design Institute of Scientific Instrument Engineering, 41 Russkaya str.,

Novosibirsk, 630058, Russian Federation

Abstract

For creating the conditions to simulate the zero gravity during the disclosure of the mechanical

devices of solar panels there must be a weighting point's vertical movement drive for an active

automated zero gravity system.

In 2014 Technological Design Institute of Scientific Instrument Engineering (TDI SIE) Siberian

Branch RAS developed the weighting point's vertical movement drive for an active automated zero

gravity system as part of this automated system. At the present time automated system of zero

gravity is produced in the pilot plant of TDI SIE.

The operating principle of the drive is to move the weighting point by the signal of the control

program.

Keywords

instrumentation; the zero gravity system; drive