In synchronous belt drives, it is generally difficult to eliminate pulley eccentricity, because the pulley teeth and shaft hole are produced separately and the pulley is installed on an eccentric shaft. This eccentricity affects the accuracy of rotation transmission, so that the belt tension changes during a single rotation of the pulley. This in turn affects the occurrence of resonance in the spans. In the present study, the transmission error in a synchronous belt drive with an eccentric pulley in the absence of a transmitted load was experimentally investigated for the case in which the spans undergo first-mode transverse vibration due to resonance. The transmission error was found to have a component with a period equal to the span displacement, in addition to a component with a period of half the span displacement. During a single rotation of the pulley, the magnitude of the transmission error increased, and its frequency decreased, with decreasing belt tension. The transmission error exhibited the large value when two frequency conditions were satisfied: one was that the meshing frequency was within the range of span frequency variations due to the eccentricity, and the other was that the minimum span frequency was close to an integer multiple of the pulley rotation frequency. Even if both of these conditions occurred, if the range of span frequency variations due to the eccentricity was larger than 13 Hz, the transmission error could be eliminated by adjusting the belt tension, so that the average span frequency corresponded to the meshing frequency.

References

1.
Yue
,
M. G.
,
1993
, “
Belt Vibration Considering Moving Contact and Parametric Excitation
,”
ASME J. Mech. Des.
,
115
(
4
), pp.
1024
1030
.
2.
Takano
,
K.
,
Watanabe
,
K.
,
Matsushita
,
O.
, and
Kitano
,
M.
,
1998
, “
Vibration and Control of Axially Moving Belt System (1st Report, Experimental Analysis)
,”
Trans. Jpn. Soc. Mech. Eng., Ser. C
,
64
(
618
), pp.
421
428
.
3.
Scurtu
,
P. R.
,
Clark
,
M.
, and
Zu
,
J. W.
,
2009
, “
Experimental Study of Coupled Longitudinal and Transverse Vibration of Automotive Belts
,”
SAE
Paper No. 2009-01-1198.
4.
Kulkarni
,
C.
, and
Aher
,
V. S.
,
2011
, “
A Method to Calculate the Natural Frequency of the Timing Belt Drive
,”
SAE
Paper No. 2011-28-0140.
5.
Basso
,
R.
,
2006
, “
Detection of Reduced Tooth Stiffness in Synchronous Belts by Means of Pulley Vibration Monitoring
,”
Proc. Inst. Mech. Eng., Part D
,
220
(
7
), pp.
947
957
.
6.
Kubo
,
A.
,
Ando
,
T.
,
Sato
,
S.
,
Aida
,
T.
, and
Hoshiro
,
T.
,
1971
, “
On the Running Noise of Toothed Belt Drive (1st Report, Mechanism of Noise Generation)
,”
Bull. JSME
,
14
(
75
), pp.
991
997
.
7.
Kubo
,
A.
,
Ando
,
T.
,
Sato
,
S.
,
Aida
,
T.
, and
Hoshiro
,
T.
,
1971
, “
On the Running Noise of Toothed Belt Drive (2nd Report, Influence of Running Condition and Some Noise Reduction Methods)
,”
Bull. JSME
,
14
(
75
), pp.
998
1007
.
8.
Kagotani
,
M.
,
Aida
,
T.
,
Koyama
,
T.
,
Sato
,
S.
, and
Hoshiro
,
T.
,
1981
, “
Some Methods to Reduce Noise in Toothed Belt Drives
,”
Bull. JSME
,
24
(
190
), pp.
723
728
.
9.
Koyama
,
T.
,
Watanabe
,
K.
,
Nagai
,
K.
, and
Kagotani
,
M.
,
1990
, “
A Study on Timing Belt Noise (How to Reduce Resonant Noise)
,”
ASME J. Mech. Des.
,
112
(
3
), pp.
419
423
.
10.
Watanabe
,
K.
,
Koyama
,
T.
,
Nagai
,
K.
, and
Kagotani
,
M.
,
1990
, “
A Study on Timing Belt Noise (Theoretical Analysis for Forced Transverse Vibration of Timing Belt With Parametric Excitation)
,”
ASME J. Mech. Des.
,
112
(
3
), pp.
424
429
.
11.
Ueda
,
H.
,
Kagotani
,
M.
,
Koyama
,
T.
, and
Nishioka
,
M.
,
1999
, “
Noise and Life of Helical Timing Belt Drives
,”
ASME J. Mech. Des.
,
121
(
2
), pp.
274
279
.
12.
Zhang
,
W.
, and
Koyama
,
T.
,
2003
, “
A Study on Noise in Synchronous Belt Drives (Experimental and Theoretical Analysis of Impact Sound)
,”
ASME J. Mech. Des.
,
125
(
4
), pp.
773
778
.
13.
Chen
,
G.
,
Zhen
,
H.
, and
Qatu
,
M.
,
2013
, “
Noise Modeling of Synchronous Belts
,”
Noise Vib. Worldwide
,
44
(
7
), pp.
14
27
.
14.
Kagotani
,
M.
, and
Ueda
,
H.
,
2012
, “
Transmission Error in Synchronous Belt With Resonance Under Installation Tension
,”
ASME J. Mech. Des.
,
134
(
6
), p.
061003
.
15.
Kagotani
,
M.
, and
Ueda
,
H.
,
2015
, “
Influence of Installation Tension on Transmission Error Due to Resonance in a Synchronous Belt
,”
ASME J. Mech. Des.
,
137
(
8
), p.
083301
.
16.
Kagotani
,
M.
,
Koyama
,
T.
, and
Ueda
,
H.
,
1993
, “
A Study on Transmission Error in Timing Belt Drives (Effect of Production Error in Polychloroprene Rubber Belt)
,”
ASME J. Mech. Des.
,
115
(
4
), pp.
1038
1043
.
17.
Kagotani
,
M.
,
Koyama
,
T.
, and
Marshek
,
K. M.
,
1989
, “
A Study on Transmission Error in a Synchronous Belt Drive With Eccentric Pulley (Effect of Initial Tension)
,”
Trans. Jpn. Soc. Mech. Eng., Ser. C
,
55
(
519
), pp.
2831
2839
.
18.
Kagotani
,
M.
, and
Koyama
,
T.
,
1990
, “
A Study on Transmission Error in a Synchronous Belt Drive With Eccentric Pulley (Effect of Eccentric Phase Angle of Pulley and Belt Width)
,”
Trans. Jpn. Soc. Mech. Eng., Ser. C
,
56
(
527
), pp.
1914
1920
.
19.
ISO
,
1999
, “
Curvilinear Toothed Synchronous Belt Drive Systems
,” International Organization for Standardization, Geneva, Switzerland, Standard No.
ISO 13050:1999(E)
.
20.
Kagotani
,
M.
,
Aida
,
T.
,
Koyama
,
T.
,
Sato
,
S.
, and
Hoshiro
,
T.
,
1983
, “
A Study on Transmission Characteristics of Toothed Belt Drives (2nd Report, Transmission Error Under a State of Applied Initial Tension, Theoretical Analysis)
,”
Bull. JSME
,
26
(
211
), pp.
132
139
.
21.
Kagotani
,
M.
,
Koyama
,
T.
,
Ueda
,
H.
,
Aida
,
T.
, and
Hoshiro
,
T.
,
1984
, “
Load Distribution on Toothed Belt Drives Under a State of Initial Tension
,”
Bull. JSME
,
27
(
230
), pp.
1780
1787
.
22.
Shimoyama
,
Y.
,
1940
, “
Vibration of a Running Belt
,”
Trans. Jpn. Soc. Mech. Eng., Part 1
,
6
(
23
), pp.
19
24
.
23.
Kagotani
,
M.
,
Ueda
,
H.
, and
Koyama
,
T.
,
2000
, “
Transmission Error in Synchronous Belt Drives Under Load (Consideration of Belt Climbing)
,”
Trans. Jpn. Soc. Mech. Eng., Ser. C
,
66
(
643
), pp.
951
958
.
24.
Koyama
,
T.
,
Kagotani
,
M.
,
Shibata
,
T.
,
Sato
,
S.
, and
Hoshiro
,
T.
,
1980
, “
A Study on Strength of Toothed Belt (4th Report, Load Distribution in Case of Considering Incomplete Meshing)
,”
Bull. JSME
,
23
(
181
), pp.
1235
1239
.
25.
Kagotani
,
M.
,
Ueda
,
H.
, and
Koyama
,
T.
,
2001
, “
Transmission Error in Helical Timing Belt Drives (Case of a Period of Pulley Pitch)
,”
ASME J. Mech. Des.
,
123
(
1
), pp.
104
110
.
You do not currently have access to this content.