37
Driver and driven units
Driven unit:
horizontal accumulating conveyor
system, two parallel timing belts on
steel support rails
Mass moved:
three loaded wooden pallets total weight
each 62.5 kg
Required
conveying speed:
v
= 1.0 m/s
Prime mover:
three-phase AC motor
Starting torque:
M
A
= 0.7 M
N
Driver speed:
n
1
= 145 min
-1
Operating conditions, layout
Daily operating time:
max. 8 hours
Starts/stops per day:
2
Type of start:
under load
Type of load:
medium shock
Ambient conditions:
room temperature, no special
contamination
Length of conveyor:
a
= 2478 mm
Overall width:
b
1
, B
≤
90 mm
Clearance diameter:
≤
150 mm
4.4 ZRL-V drive design
Drive design of
optibelt
ZRL-V
joined endless timing belt for conveyor systems,
z
emax
= 6, v
≤≤≤≤≤
2 m/s
Formulae
Example
Timing belt load
c
2
= 1.6 + 0 + 0 = 1.6
c
0
= 1.6
c
6
= 0
c
8
= 0
few switching cycles
S
Bn3
= 1.6 · 735.75 = 1177 N
S
n3
=
= 735.75 N
Friction due to acceleration can be neglected here
S
n3tot
= 0
+ 0
+ 1471.5 = 1471.5 N
S
n3tot
= 187.5 · 0 + 187.5 · 9.81· sin 0
°
+ 0.8 · 187.5 · 9.81 · cos 0
°
m
tot
= 3 · 62.5 kg = 187.5 kg
a
1
is insignificant, as
m
1
is taken into account
a
1
= 0
g = 9.81
For special belt constructions, see pages 9 to 11
µ
tot
= 0.35 + 0.45 = 0.8
Sliding friction
µ
1
=
µ
= 0.35 for PAR/wood
Sliding friction
µ
2
=
µ
= 0.45 for PAZ/steel
α
= 0
°
, horizontal conveyor
M
Bth
= 1.6 · 48.45 = 77.5 Nm M
Abth
=
= 48.45 Nm
d
w1th
=
= 131.7 mm
Calculation using circumferential force S
Bn3
S
Bn3
= c
2
· S
n3
S
n3
=
Force due to acceleration F
B
, force due to weight G and friction force F
R
S
n3tot
= F
B
+ G · sin
α
+ F
R
· cos
α
S
n3tot
= m
tot
· a
1
+ m
tot
· g · sin
α
+
µ
tot
· m
tot
· g · cos
α
Total mass m
tot
m
tot
= m
1
+ m
2
+ . . . + m
n
Acceleration a
1
and g
a
1
=
g = acceleration due to gravity
Coefficient of friction
m
µ
tot
=
µ
1
+
µ
2
µ
,
µ
0
see Table
1.6,
page 10
Sliding friction and frictional grip
,
µ
1
for belt/conveyed material
Sliding friction and frictional grip
,
µ
2
for belt/support rail or
guide
Angular deviation
a
from the horizontal
α
= 0
°
, vertical movement,
sin 0
°
= 0, cos 0
°
= 1
α
= 90
°
, horizontal movement, sin 90
°
= 1, cos 90
°
= 0
Alternative: calculation using torque
Theoretical design torque M
Bth
M
Bth
= c
2
· M
Abth
M
Abth
=
If M
Ab
is not known:
M
B
= c
2
· M
An
formulae see page 13
Theoretical pitch diameter d
w1th
d
w1th
=
1471.5
2
S
n3tot
number of belts
v
2
· 10
3
2 · s
19100 · v
n
1
S
n3
· d
wth
2000
19100 · 1.0
145
Overall drive service factor c
2
c
2
= c
0
+ c
6
+ c
8
Basic drive service factor
c
0
Table 2.1, page 12
Pulley and idler correction factor
c
6
Table 2.2, page 13
Start/stop factor
c
8
Table 2.2, page 13
m
s
2
735.75 · 131.7
2000
Содержание ZRL
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