China is now building the world’s largest single dish radio telescope in Guizhou province, which is called Five-hundred meter Aperture Spherical radio Telescope (FAST). The main purpose of this paper is to present an effective dimensional design method on the six-cable driven parallel manipulator of FAST. Sensitivity design method is adopted for the six-cable driven parallel manipulator of FAST. Cable has the capability to bear tension but not compression, so that cable driven parallel manipulator may not be controlled as expected if tension of one cable is small or zero. Therefore, for dimensional design of the six-cable driven parallel manipulator, three functions to evaluate tension performance were proposed. The tension performance functions can reflect the uniformity of cable tension and controllability of the six-cable driven parallel manipulator. According to the sensitivity design method and tension performance evaluating functions, a set of optimized dimensional parameters is calculated for constructing the six-cable driven parallel manipulator of FAST. In order to verify the optimization design result, a similarity model of the six-cable driven parallel manipulator was set up in Beijing. A serial of experiments shows that tension performance of the six-cable driven parallel manipulator satisfies the system’s requirement. More importantly, it provides a theoretical reference for further study on dimensional design of a cable driven parallel manipulator with large span.

References

1.
Nan
,
R. D.
, and
Peng
,
B.
, 2000, “
A Chinese Concept for the 1km 2radio Telescope
,”
Acta Astronaut.
,
46
, pp.
667
675
.
2.
Nan
,
R. D.
, 2006, “
Five Hundred Meter Aperture Spherical Radio Telescope (FAST)
,”
Sci. China, Ser. G
,
49
, pp.
19
148
.
3.
Behzadipour
,
S.
, 2009, “
Kinematics and Dynamics of a Self-Stressed Cartesian Cable-Driven Mechanism
,”
ASME J. Mech. Des.
,
131
(
6
), p.
061005
.
4.
Schmalz
,
A. P.
,
Student
,
G.
, and
Agrawal
,
S. K.
, 2008, “
Dynamic Workspace and Control of Planar Active Tensegritylike Structures
,”
ASME J. Mech. Des.
,
130
(
12
), p.
122301
.
5.
Bowling
,
A.
, 2007, “
Mass Distribution Effects on Cable-Driven Hexapod Dynamic Performance
,”
ASME J. Mech. Des.
,
129
(
8
) pp.
887
890
.
6.
Hiller
,
M.
, and
Fang
,
S. Q.
, 2005, “
Design, Analysis and Realization of Tendon-Based Parallel Manipulators
,”
Mech. Mach. Theory
,
40
, pp.
429
445
.
7.
Verhoeven
,
R.
,
Hiller
,
M.
, and
Tadoroko
,
S.
, 1998, “
Workspace, Stiffness, Singularities and Classification of Tendon Driven Stewart Platform
,”
Proceedings of the 6th International Symposium on Advances in Robot Kinematics
,
Austria
, pp.
105
114
.
8.
Yang
,
G. L.
,
Pham
,
C. B.
, and
Yeo
,
S. H.
, 2006, “
Workspace Performance Optimization of Fully Restrained Cable-Driven Parallel Manipulators
,”
Proceedings of the 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems
, pp.
85
90
.
9.
Qu
,
L.
,
Tang
,
X. Q.
, and
Yao
,
R.
, 2010, “
Error Analysis and Compensation of Cable Driven Parallel Manipulator for the Forty-Meter Aperture Radio Telescope (in Chinese)
,”
High Technol. Lett.
,
20
(
3
), pp.
303
308
.
10.
Yao
,
R.
,
Tang
,
X. Q.
, and
Wang
,
J. S.
, 2009, “
Cable Tension Analysis and Optimization of Radio Telescope Feed Support System (in Chinese)
,”
Prog. Nat. Sci.
,
11
(
19
), pp.
1211
1229
.
11.
Guo
,
Y. W.
,
Wang
,
Q. M.
, and
Nan
,
R. D.
, 2008, “
Simulation for the Active Reflector of the FAST 30m Model
,”
Proc. SPIE
7018
, p.
701849
.
12.
Menciassi
,
A.
,
Eisinberg
,
A.
, and
Izzo
,
I.
, 2004, “
From ‘Macro’ to ‘Micro’ Manipulation: Models and Experiments
,”
IEEE/ASME Trans. Mechatron.
,
9
(
2
), pp.
311
320
.
13.
Bluman
,
G. W.
, and
Cole
,
J. D.
, 1974,
Similarity Methods for Differential Equations
,
Springer-Verlag
,
New York
.
14.
Wilfred
,
E. B.
,
Peter
,
S. W.
, and
Franklin
,
T. D.
, 1991,
Similarity Method in Engineering Dynamics: Theory and Practice of Scale Modeling
,
Elsevier
,
Amsterdam
.
15.
Ren
,
G. X.
, and
Lu
,
Q. H.
, 2004, “
On Vibration Control With Stewart Parallel Mechanism
,”
Mechatronics
,
14
, pp.
1
13
.
16.
Yao
,
R.
,
Tang
,
X. Q.
, and
Wang
,
J. S.
, 2010, “
Dimensional Optimization Design of the Four-Cable Driven Parallel Manipulator in FAST
,”
IEEE/ASME Trans. Mechatron.
,
15
(
6
), pp.
932
941
.
17.
Kozak
,
K.
,
Zhou
,
Q.
, and
Wang
,
J. S.
, 2006, “
Static Analysis of Cable-Driven Manipulators With Non-Negligible Cable Mass
,”
IEEE/ASME Trans. Rob.
,
22
(
3
), pp.
425
433
.
18.
Nan
,
R. D.
, 2005, “
Structure for Supporting the Feedback Cabin of the FAST
,” National Astronomical Observatories Chinese Academy of Science, Report.
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