Inspired by the operating principle of a tank’s track, we have developed a long-stroke spring guiding system with belt-shaped springs. Other than those characteristics of normal spring guides, the long-stroke spring guiding system has longer guided stroke and adjustable recovery force. To study the mechanical characteristics of the system, experiments and analyses are carried out. The finite element analysis software ABAQUS is applied to analyze the stress and the recovery force of the preloaded spring guiding during the guiding process, and the Buckingham pi theorem is utilized to investigate the complicated relationships among the geometric parameters, the working parameters, and the guiding properties. According to the analytical and experimental results, an efficient design process and design criteria for the guiding system are concluded and practically validated. Moreover, the system can be easily scaled down or modified to adapt to the applications in precision systems and microsystems due to its simple form and great variability.

1.
Slocum, A. H., 1992, Precision Machine Design, Prentice-Hall International Editions, Singapore, pp. 521–538.
2.
Bosch
,
D.
,
Heimhofer
,
B.
,
Mu¨ck
,
G.
,
Seidel
,
H.
,
Thumser
,
U.
, and
Welser
,
W.
,
1993
, “
A Silicon Microvalve with Combined Electromagnetic/Electrostatic Actuation
,”
Sens. Actuators, A
,
37–38
, pp.
684
692
.
3.
Elwenspoek
,
M.
,
Smith
,
L.
, and
Ho¨k
,
B.
,
1991
, “
Active Joints for Microrobot Limbs
,”
J. Micromech. Microeng.
,
2
, pp.
221
223
.
4.
Trimmer
,
W. S. N.
,
1989
, “
Microrobots and Micromechanical Systems
,”
Sens. Actuators
,
19
, pp.
267
287
.
5.
Uenishi
,
Y.
,
Tsugai
,
M.
, and
Mehregany
,
M.
,
1995
, “
Micro-Opto-Mechanical Devices Fabricated by Anisotropic Etching of (110) Silicon
,”
J. Micromech. Microeng.
,
5
, pp.
305
312
.
6.
Portman
,
V.
, and
Sandler
,
B. Z.
,
1999
, “
High-Stiffness Precision Actuator for Small Displacements
,”
Int. J. Mach. Tools Manuf.
,
39
, pp.
823
837
.
7.
Park
,
K. H.
,
Choi
,
C. H.
, and
Ryu
,
J.
,
2001
, “
Hybrid Actuator for High Speed and High Precision Optical Disk Drives
,”
Mechatronics
,
11
, pp.
527
543
.
8.
Lutwyche
,
M. I.
, and
Wada
,
Y.
,
1995
, “
Manufacture of Micromechanical Scanning Tunneling Microscopes for Observation of the Tip Apex in a Transmission Electron Microscope
,”
Sens. Actuators, A
,
48
, pp.
127
136
.
9.
Billing
,
V.
,
1960
, “
Flexures
,”
Mach. Des.
,
pp.
114
119
.
10.
Smith
,
S. T.
,
Chetwynd
,
D. G.
, and
Bowen
,
D. K.
,
1987
, “
Design and Assessment of Monolithic High Translation Mechanism
,”
J. Phys. E
,
20
, pp.
977
987
.
11.
Narayansamy, K., and Srinivasa, Y. G., 2000, Precision Engineering, Narosa Publishing House, New Delhi, pp. 421–428.
12.
Lobontiu
,
N.
, and
Paine
,
J. S. N.
,
2002
, “
Design of Circular Cross-Section Corner-Filleted Flexure Hinges for Three Dimensional Compliant Mechanisms
,”
J. Mech. Des.
,
124
, pp.
479
484
.
13.
Demus, W., Linearverstellvorrichtung, Max-Plank-Gesellschaft e.V., DE-Patentanmeldung P 3343 340 C1, Mu¨nchen, Nov. 1983.
14.
Buckingham
,
E.
,
1914
, “
On Physically Similar Systems; Illustrations of the Use of Dimensional Equations
,”
Phys. Rev.
,
4
, pp.
345
376
.
15.
Vanderplaats, Garret N., 1993, Numerical Optimization Techniques for Engineering Design, McGraw-Hill International Editions, Singapore.
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